Large-scale multiconfiguration Dirac-Hartree-Fock calculations for astrophysics: Cl-like ions from Cr~VIII to Zn~XIV
K. Wang, P. Jönsson, G. Del Zanna, M. Godefroid, Z. B. Chen, C. Y. Chen, J. Yan
aa r X i v : . [ phy s i c s . a t o m - ph ] N ov Draft version November 12, 2019
Typeset using L A TEX twocolumn style in AASTeX62
Large-scale multiconfiguration Dirac-Hartree-Fock calculations for astrophysics: Cl-like ions from Cr VIII to Zn XIV
K. Wang,
1, 2,3
P. J¨onsson, G. Del Zanna, M. Godefroid, Z. B. Chen, C. Y. Chen, and J. Yan — Hebei Key Lab of Optic-electronic Information and Materials, The College of Physics Science and Technology, Hebei University,Baoding 071002, China; Chimie Quantique et Photophysique, CP160/09, Universit´e libre de Bruxelles, Av. F.D. Roosevelt 50, 1050 Brussels, Belgium; Shanghai EBIT Lab, Key Laboratory of Nuclear Physics and Ion-beam Application, Institute of Modern Physics, Department of NuclearScience and Technology, Fudan University, Shanghai 200433, China; Group for Materials Science and Applied Mathematics, Malm¨o University, SE-20506, Malm¨o, Sweden; DAMTP, Centre for Mathematical Sciences, University of Cambridge, Wilberforce Road, Cambridge CB3 0WA, UK Department of Applied Physics, School of Science, Hunan University of Technology, Zhuzhou 412007, China; [email protected] Institute of Applied Physics and Computational Mathematics, Beijing 100088, China;
Submitted to ApJSABSTRACTWe use the multiconfiguration Dirac-Hartree-Fock (MCDHF) method combined with the relativisticconfiguration interaction (RCI) approach (GRASP2K) to provide a consistent set of transition energiesand radiative transition data for the lower n = 3 states in all Cl-like ions of astrophysical importance,from Cr VIII to Zn
XIV . We also provide excitation energies calculated for Fe X using the many-bodyperturbation theory (MBPT, implemented within FAC). The comparison of the present MCDHF resultswith MBPT and with the available experimental energies indicates that the theoretical excitationenergies are highly accurate, with uncertainties of only a few hundred cm − . Detailed comparisons forFe X and Ni XII highlight discrepancies in the experimental energies found in the literature. Severalnew identifications are proposed.
Keywords: atomic data - atomic processes INTRODUCTIONCl-like ions produce several strong transitions thathave been widely used in astrophysics for a range of di-agnostic applications, to e.g. measure electron temper-atures, densities, chemical composition and even strongmagnetic fields (Del Zanna et al. 2012). For a reviewof some of the applications, see Del Zanna & Mason(2018). Providing accurate atomic data for these ionsis of paramount importance.Using the multiconfiguration Dirac-Hartree-Fock(MCDHF) and the relativistic configuration interac-tion (RCI) methods (Froese Fischer et al. 2016; Grant2007), we provide here a consistent set of transitionenergies and radiative transition data with high ac-curacy in all Cl-like ions of astrophysical importance,from Cr
VIII ( Z = 24) to Zn XIV ( Z = 30). Energylevels, wavelengths, oscillator strengths, line strengths,transition rates, and lifetimes for the main n = 3 lev-els of the 3 s p , 3 s p , 3 s p d , 3 s p d , 3 s p d ,3 s p d , and 3 s p d configurations are provided. To assess the accuracy of the MCDHF transition en-ergies, we have also performed calculations and pro-vided excitation energies for Fe X using the many-body perturbation theory (MBPT) (Lindgren 1974).This work extends and complements our long-termtheoretical efforts (Wang et al. 2014, 2015, 2016a,b,2017a,b,c,d, 2018a,b,c,d, 2019; Chen et al. 2017, 2018;Guo et al. 2015; Guo et al. 2016; Si et al. 2016, 2017,2018; Zhao et al. 2018) to provide atomic data for L-and M-shells systems with high accuracy. For a review,see J¨onsson et al. (2017).In Section 2 we briefly describe the calculations, whilein Section 3 we present comparisons between theoreticaland experimental energies for the low-lying levels of themain ions. We discuss in some detail the energies of thetwo main ions, Fe X and Ni XII , revising some previousidentifications. We then present our transition rates. THEORY AND CALCULATIONS
Wang et al.
The MCDHF method in the GRASP2K code (J¨onsson et al.2013; J¨onsson et al. 2007) and the MBPT methodin the FAC code (Gu 2008, 2007) are describedby Froese Fischer et al. (2016) and by Lindgren (1974),respectively. These two methods are also introducedin our recent papers (Wang et al. 2018a,b). For thisreason, in the sections below, only the computationalprocedures are described.2.1.
MCDHF
In our MCDHF calculations, the multireference (MR)sets for even and odd parities includeeven: 3 s p , 3 s p d , 3 s p d , 3 p d , 3 s p d ,3 p d , 3 s p d , 3 s p p , 3 s p s ;odd: 3 s p , 3 s p d , 3 s p d , 3 p d , 3 s p d ,3 s p d , 3 s p p , 3 s p s .Initial MCDHF calculations for the MR sets for evenand odd parities are performed to determine simulta-neously all the orbitals 1 s , 2 s , 2 p , 3 s , 3 p , 3 d , 4 s , and4 p of the MR sets. Then, by allowing single and dou-ble substitutions from the 3 s , 3 p , 3 d , 4 s , 4 p electrons ofthe MR sets to orbitals with n ≤ , l ≤
5, and sin-gle excitations of the 2 s and 2 p electrons to orbitalswith n ≤ , l ≤
5, configuration state function (CSF)expansions are obtained. We consider the 1 s shell asinactive, keeping its two electrons in all CSFs of theexpansions. In order to monitor and obtain the conver-gence of computed properties, the orbital set is increasedsystematically layer by layer. At each stage only theouter orbitals are optimized, while the inner ones arefixed. Both valence-valence (VV) electron correlationeffects and core-valence (CV) electron correlation effectsare required for obtaining accurate results, though VVelectron correlation effects are more important. AmongCV electron correlation effects arising from subshells 2 s and 2 p , those from 2 p are the most important. We alsochecked that the contributions involving orbitals withprincipal quantum number n = 8 for VV electron cor-relation are negligible and that opening the 1 s shell forCV electron correlation can be omitted.Once the orbitals optimized, the QED corrections andBreit interaction are included in the RCI calculations.The numbers of CSFs in the final even and odd expan-sions, are, respectively, around 26 and 23 millions, forthe two parities. We use the jj - LSJ transformationapproach (Gaigalas et al. 2017; Gaigalas et al. 2004) totransform the jj -coupled CSFs into LSJ -coupled CSFs,and obtain the
LSJ labels used by experimentalists.2.2.
MBPT
The MBPT method (Lindgren 1974) is implementedin the FAC code by Gu (2008, 2007). This methodwas used in our recent papers (Wang et al. 2014, 2015,2016a,b, 2017d, 2018b) to provide high accuracy atomicdata for L- and M- shell ions. In the MBPT method, theHilbert space of the full Hamiltonian is divided into twoparts, i.e., a model space M and a orthogonal space N .We included in M all the CSFs of the MR set as definedabove for the MCDHF calculations. All the possibleCSFs generated by allowing single and double substi-tutions from the electrons of the MR sets are includedin the N space. With the maximum l -value of 20, themaximum n -values considered for the single and dou-ble excitations are, respectively, 125 and 65. The con-figuration interaction effects in the model space M areconsidered non-perturbatively, i.e. are included in theself-consistent field calculations. The interaction effectsbetween the two spaces M and N are considered throughthe second-order perturbation theory. EVALUATION OF DATA3.1.
Energy Levels and Lifetimes
Given its importance, we focus first on Fe X . Theenergies of the 3 s p , 3 s p levels were well estab-lished, whilst not all of the 3 s p d levels (produc-ing the strongest lines) were identified in the ear-lier studies in the 1960’s and 1970’s. For a reviewon the accuracy of the experimental energies seeDel Zanna et al. (2004), where several values were im-proved, and alternative/new identifications were pro-posed. Del Zanna et al. (2004) used the superstruc-ture code and applied, whenever possible, Term EnergyCorrections (TEC) to improve the theoretical energies.In a later scattering calculation for the n = 4 levels,Del Zanna et al. (2012) revised a few of the identifi-cations using autostructure (Badnell 2011), whichwere included in the CHIANTI database (Dere et al.1997; Dere et al. 2019).Several structure calculations have been publishedover the years, and some comparisons are shown inTable 1. In this Table, excitation energies for thelowest 197 states of the 3 s p , 3 s p , 3 s p d ,3 s p d , 3 s p d , and 3 s p d configurations inFe X from the present MCDHF and MBPT calcu-lations are given. Observed energies from the NISTdatabase and computed values from different sourcesare also included: CHIANTI, the MR-MP calcula-tions by Ishikawa et al. (2010), and the grasp cal-culations by Aggarwal & Keenan (2005). We note thatIshikawa et al. (2010) and Aggarwal & Keenan (2005)provide results only for the lowest 90 states. The grasp calculations by Aggarwal & Keenan (2005) focus on theestimation of cross-sections for electron impact exci-tation for the lowest 90 levels of the 3 s p , 3 s p ,3 s p d , 3 s p d , and 3 s p d configurations, andrestricted electron correlation effects to the n = 3 va-lence shells. In their calculations, valence-valence elec-tron correlation effects among the levels of the 3 s p ,3 s p , 3 s p d , 3 s p d , 3 p d , 3 s p d , 3 s p d ,and 3 s p d configurations are included. Because ofthis limitation, results from Aggarwal & Keenan (2005)are generally higher than our MCDHF values by one toseveral tens of thousand cm − . As can be seen in Ta-ble 1, good agreement is obtained between the MCDHF,MBPT and MR-MP calculations for the lowest 90 states.For higher-lying levels (above s p d levels) the only theoretical results availablefor comparison are the autostructure calculationsby Del Zanna et al. (2012). The latter focused on the es-timation of cross-sections for electron impact excitationfor the higher levels and were limited to the n = 4 config-urations, restricting electron correlation to the valenceshells. Because of this limitation, the autostructure excitation energies differ from our MCDHF results by − − – 22 000 cm − for the higher-lying levels.On the other hand, good agreement is obtained amongthe present accurate MCDHF and MBPT calculations.Based on our MCDHF and MBPT excitation en-ergies, we confirm most of experimental values fromthe NIST ASD and the CHIANTI database, exceptfor a few cases, which we now discuss. For the level / s p ( P ) P d F / , our energy (426602 cm − )is very close to the value suggested by Jupen et al.(1993), 426707 cm − , allowing us to confirm their iden-tification.For the state / s p ( D ) D d P / , the NISTenergy is clearly in error. Our energy, 427951 cm − ,is very close to the experimental value suggested byJupen et al. (1993), 428002 cm − . We therefore confirmtheir identification.For the level / s p ( P ) P d P / , ourMCDHF value is 439619 cm − , relatively close to thevalue suggested by Del Zanna et al. (2004) (438168cm − ), but not to the value later proposed by Del Zanna et al.(2012), and included in the CHIANTI database, version9. Our value is not close to any experimental energiespreviously suggested. Jupen et al. (1993) suggested avalue of 442439 cm − , definitely too far from our value.Considering the good agreement between our excitationenergies and observed energies for the other P levels,i.e., 3 s p ( P ) P d P / , / , we believe that the ob-served energy should be close (within 200 cm − ) to ourpredicted one for the level / s p ( P ) P d P / , and that the latest tentative identification in the CHI-ANTI database should be discarded.Our energy for the level / s p ( D ) D d D / is in good agreement with the experimental value(444127 cm − ) suggested by Jupen et al. (1993).For the state / s p ( P ) P d F / the NISTenergy is clearly in error, while our energy supportsthe identification in CHIANTI, due to Del Zanna et al.(2004). For the state / s p ( D ) D d F / ,the experimental value in the CHIANTI database, sug-gested by Del Zanna et al. (2004) (and also Jupen et al.(1993)), shows good agreement (∆ E CHIANTI = -41cm − ) with our MCDHF value, while the NIST val-ues differs from our value by 5 388 cm − . Our energyfor level / s p ( S ) S d D / (516334 cm − ) isvery close to the value suggested by Jupen et al. (1993),516222 cm − . For the state / s S p P d F ◦ / ,the experimental value from the NIST database (basedon a suggestion rather than a firm observation) showsgood agreement (∆ E NIST = −
180 cm − ) with ourMCDHF value, while the CHIANTI value, based ona tentative alternative suggestion, differs from our valueby − − .The above comparisons clearly demonstrate the im-portance of the present calculations to assess the cor-rectness of level identifications.With regard to the lifetimes in Fe X , our MCDHFvalues, τ l MCDHF in the length form and τ v MCDHF in thevelocity form, show good agreement with an average de-viation of 1.5 %. Large deviations with the values forthe lower levels calculated by Del Zanna et al. (2012)are found. This is not surprising as those calculationswere aimed at the n = 4 configurations.After Fe X , the most important ion (considering itsabundance in astrophysical plasma) is Ni XII . Com-pared to Fe X , the status of the experimental ener-gies for this ion is very poor, as described in detailby a recent review of laboratory and astrophysical ob-servations in Del Zanna & Badnell (2016). In that pa-per, new scattering calculations were used to provideseveral tentative identifications for the unknown en-ergy levels. Their autostructure excitation energiesare generally relatively close (less than 1 000 cm − )to our MCDHF values, but we revise here many ofthe suggested experimental energies, see Table 2. Asdescribed in Del Zanna & Badnell (2016), the energiesof many of the 3 d levels are known only relative tothe / s p ( P ) P d D / metastable state. Theidentification provided by Del Zanna & Badnell (2016)(a decay to the ground state at 220.247 ˚A) is closeto the approximate value given by NIST, but is over3 000 cm − higher than our MCDHF energy. Consid- Wang et al.
24 25 26 27 28 29 30Z−3000−2000−10000100020003000 E M C D H F - E N I S T ( c m − ) ( P) P 3d P ( P) P 3d P ( P) P 3d F Figure 1.
The differences (in cm − ) of the MCDHF and NIST excitation energies for the 3 s p ( P ) P d P / ,3 s p ( P ) P d P / and 3 s p ( P ) P d F / levels as a function of Z . The data come from Table 3. ering the overall accuracy of our calculations, we sug-gest here an alternative identification. The decay of thislevel could indeed coincide with an Fe XIII transition at221.822 ˚A, providing an energy of 450812 cm − , only129 cm − lower than our MCDHF value. This iden-tification was not considered in Del Zanna & Badnell(2016) because the high-resolution solar spectrum ofBehring et al. (1976) did not suggest any line blending.However, we have estimated the intensity of the Fe XIII transition relative to those of other nearby lines usingthe atomic data from Del Zanna & Storey (2012), andfound that only about half the observed intensity is dueto Fe
XIII . The other half would be due to Ni
XII . Westill regard this as a tentative new identification, as thedecay from the D / level should be also observed. Ifthe decay of the D / is at 221.822 ˚A, the decay fromthe D / level should be at 222.35 ˚A, but no line hasbeen reported around this wavelength. Assuming thatall these blends occur, we can infer the energies of sev-eral levels ( F / ) from a laboratory wavelength of 201.47 ˚A,and that of level P / ) from a laboratorywavelength of 195.51 ˚A. For the levels D / , has been troublesome, as describedin a section of the Del Zanna & Badnell (2016) paper.On the basis of the high-resolution laboratory spec-trum of Ryabtsev (1979) and the calculated intensities,Del Zanna & Badnell (2016) suggested that one of thetwo lines observed at 152.697 and 152.929 ˚A should bethe decay from the D / level. The preference was givento the first one, as there is a line in the Behring et al.(1976) solar spectrum at 152.703 ˚A, although too strong.Here we prefer the second option, as it gives an energycloser to our MCDHF value.Finally, a summary of excitation energies (in cm − )and radiative lifetimes (in s) for the lowest 187 (196, 197,193, 192, 194, 194) states of the 3 s p , 3 s p , 3 s p d ,3 s p d , 3 s p d , 3 s p d , and 3 s p d configura-tions in Cr VIII (Mn IX, Fe X, Co XI, Ni XII, Cu XIII,Zn XIV) from the present MCDHF calculations are pro-vided in Table 3. All the states lie under the first 3 p d state. Observed values compiled in the NIST ASD arealso included in Table 3. The differences for observedvalues from the present MCDHF results are about 2 500cm − – 3 200 cm − in Ni XII and Cu XIII, and about2 000 cm − – 2 500 cm − in Zn XIV. Whereas goodagreement is obtained for the same levels in lower- Z ions(Mn IX, Fe X, and Co XI). The differences (in cm − ) be-tween the MCDHF and NIST excitation energies for the3 s p ( P ) P d P / , 3 s p ( P ) P d P / and3 s p ( P ) P d F / levels, as a function of the nu-clear charge Z are shown in Figure 1 as an example. For3 s p ( P ) P d P / and 3 s p ( P ) P d P / four anomalies appear in Cu XIII and Zn XIV. Sincein the present MCDHF calculations the same compu-tational strategies are used for each ion, the accuracyof our calculated excitation energies should be consis-tent and systematic for the same level along the se-quence. Therefore, the large differences indicate thatseveral other identifications need to be revised.3.2. Transition rates
Wavelengths λ ij , transition rates A ji , and branchingfractions (BF ji = A ji / j − P k =1 A jk ) involving all levels con-sidered in the present MCDHF calculations, as reportedin Table 3, along with line strength S ji and weightedoscillator strengths gf ji , are provided in Table 4. E1and E2 transition data in both length ( l ) and velocity( v ) forms are given. For E1 and E2 transitions, we pro-vide (last column) the uncertainty estimations of linestrengths S adopting the NIST ASD (Kramida et al.2018) terminology (A + ≤ ≤ + ≤ ≤
10 %, C + ≤
18 %, C ≤
25 %, D + ≤
40 %, D ≤
50 %, andE >
50 % ) and using the method proposed by Kramida(2014). For each E1 transition, the deviation δS of linestrengths S l in the length form and S v in the veloc-ity form is defined as δS = | S v − S l | /max( S v , S l ). Invarious ranges of S , the averaged uncertainties δS av of δS for E1 transitions in Fe X are assessed to 1.1 %for S ≥ ; 1.3 % for 10 > S ≥ − ; 2.2 % for10 − > S ≥ − ; 3.3 % for 10 − > S ≥ − ; 7.3 %for 10 − > S ≥ − , 14 % for 10 − > S ≥ − , and29 % for 10 − > S ≥ − . Then, the largest of δS av and δS ij is considered to be the uncertainty of each par-ticular transition.In Table 4, about 8.4 % E1 transitions in Fe X have theuncertainty of A+, 18.2 % of A, 30.8 % of B+, 18.1 %of B, 15.9 % of C+, 2.4 % of C, 4.3 % have the uncer-tainty of D+, and 1.2 % of D, while only 0.7 % have theuncertainty of E. Using the same classification method, the uncertain-ties of the line strength S for E2 transitions in Fe X,as well as those for E1 and E2 transitions in Cr VIII,Mn IX, Co XI, Ni XII, Cu XIII, and Zn XIV, are alsolisted in Table 4. 3.3. Summary
The calculations of excitation energies, lifetimes, andradiative transition data for the n = 3 states of Cl-likeions from Cr VIII to Cu XIV were performed using theMCDHF/RCI methods. Our detailed discussion of theenergies of Fe X and Ni XII have highlighted several dis-crepancies in the experimental energies in NIST and inthe literature. The above comparisons clearly show theimportance of the present ab initio calculations to assessthe correctness of level and line identifications. Furtherstudies are required to assess the identifications of theother ions, and further experimental work is encouragedto confirm our suggestions, especially for Ni
XII .SCIENTIFIC SOFTWARE PACKAGESScientific software packages including
Software:
GRASP2K(J¨onsson et al.2007;J¨onsson et al.2013) and FAC (Gu 2008) are used in the present work.We acknowledge the support from the National KeyResearch and Development Program of China underGrant No. 2017YFA0402300, the Science ChallengeProject of China Academy of Engineering Physics(CAEP) under Grant No. TZ2016005, the National Nat-ural Science Foundation of China (Grant No. 11703004,No. 11674066, No. 11504421, and No. 11474034), theNatural Science Foundation of Hebei Province, China(A2019201300 and A2017201165), and the Natural Sci-ence Foundation of Educational Department of HebeiProvince, China (BJ2018058). This work is also sup-ported by the Fonds de la Recherche Scientifique -(FNRS) and the Fonds Wetenschappelijk Onderzoek- Vlaanderen (FWO) under EOS Project n o O022818F,and by the Swedish research council under contracts2015-04842 and 2016-04185. GDZ acknowledges sup-port form STFC (UK) via the consolidated grant to thesolar/atomic astrophysics group, DAMTP, Universityof Cambridge. KW expresses his gratitude to the sup-port from the visiting researcher program at the FudanUniversity.
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Table 1 . Excitation energies E in cm − and radiative lifetimes τ in s for 197 states of Fe X . In addition to Except for the present MCDHFexcitation energies E MCDHF , differences (∆ E x = E x − E MCDHF ) in cm − from different sources (see below) are listed. ∆ E MBPT - thepresent MBPT calculations; ∆ E AS - the autostructure calculations by Del Zanna et al. (2012); ∆ E NIST - observed energies listed in theNIST ASD (Kramida et al. 2018); ∆ E CHIANTI - observed energies evaluated by Del Zanna (2012); Del Zanna et al. (2004) and listed inthe CHIANTI database (Dere et al. 1997; Dere et al. 2019); ∆ E MRMP - the MR-MP calculations by Ishikawa et al. (2010); ∆ E GRASP - the grasp calculations by Aggarwal & Keenan (2005); τ l MCDHF - the present MCDHF calculations in the length form; τ v MCDHF - the presentMCDHF calculations in the velocity form; τ l AS - the autostructure calculations in the length form by Del Zanna et al. (2012). Key Level E MCDHF ∆ E MBPT ∆ E AS ∆ E NIST ∆ E CHIANTI ∆ E MRMP ∆ E GRASP τl MCDHF τv MCDHF τl AS1 3 s p P ◦ / s p P ◦ / s S p S / s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d F / s p D ) 1 D d P / s p P ) 3 P d F / s p P ) 3 P d F / s p D ) 1 D d P / s p P ) 3 P d F / s p D ) 1 D d D / s p P ) 3 P d P / s p P ) 3 P d P / s p P ) 3 P d F / s p P ) 3 P d P / s p D ) 1 D d D / s p D ) 1 D d G / s p D ) 1 D d G / s p P ) 3 P d F / s p D ) 1 D d F / s p D ) 1 D d F / s p S ) 1 S d D / s p S ) 1 S d D / s p D ) 1 D d S / s p P ) 3 P d P / s p P ) 3 P d P / s p P ) 3 P d D / s p P ) 3 P d D / s S p P d P ◦ / s S p P d P ◦ / s S p P d P ◦ / s S p P d F ◦ / s S p P d F ◦ / s S p P d F ◦ / s S p P d F ◦ / s S p P d D ◦ / s S p P d D ◦ / s S p P d D ◦ / s S p P d D ◦ / s S p P d F ◦ / s S p P d D ◦ / s S p P d D ◦ / s S p P d F ◦ / s S p P d P ◦ / s S p P d P ◦ / Table 1 continued
Table 1 (continued)
Key Level E MCDHF ∆ E MBPT ∆ E AS ∆ E NIST ∆ E CHIANTI ∆ E MRMP ∆ E GRASP τl MCDHF τv MCDHF τl AS49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s S p P d F ◦ / s S p P d F ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s S p P d D ◦ / s S p P d D ◦ / s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 P ◦ / s p S ) 4 S d D ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ / s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ / s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ / s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ / s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d D ) 2 F ◦ / s p D ) 2 D d F ) 4 H ◦ / s S p P d P ◦ / s S p P d P ◦ / s p D ) 2 D d D ) 2 F ◦ / s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d D ) 2 D ◦ / s p P ) 2 P d F ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ / s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d D ) 2 G ◦ / s p P ) 2 P d F ) 4 G ◦ / s p D ) 2 D d F ) 4 F ◦ / s p D ) 2 D d F ) 4 F ◦ / s p D ) 2 D d F ) 4 F ◦ / s p D ) 2 D d F ) 4 F ◦ / s p D ) 2 D d D ) 2 P ◦ / s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d P ) 2 S ◦ / s p P ) 2 P d F ) 4 D ◦ / Table 1 continued Wang et al.
Table 1 (continued)
Key Level E MCDHF ∆ E MBPT ∆ E AS ∆ E NIST ∆ E CHIANTI ∆ E MRMP ∆ E GRASP τl MCDHF τv MCDHF τl AS105 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 2 D ◦ / s p P ) 2 P d D ) 2 F ◦ / s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d P ) 2 F ◦ / s p S ) 4 S d S ) 4 S ◦ / s p D ) 2 D d D ) 2 P ◦ / s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 4 F ◦ / s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ / s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ / s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 2 D ◦ / s p S ) 4 S d G ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d G ) 2 G ◦ / s p D ) 2 D d F ) 4 P ◦ / s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d D ) 2 P ◦ / s p D ) 2 D d G ) 2 G ◦ / s p P ) 2 P d D ) 2 P ◦ / s p P ) 2 P d G ) 2 H ◦ / s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d P ) 4 D ◦ / s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ / s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 2 H ◦ / s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d G ) 2 F ◦ / s p D ) 2 D d F ) 4 D ◦ / s p S ) 4 S d F ) 4 F ◦ / s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d F ) 2 F ◦ / s p S ) 4 S d F ) 4 F ◦ / s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d P ) 2 D ◦ / s p P ) 2 P d G ) 2 G ◦ / s p S ) 4 S d F ) 4 F ◦ / Table 1 continued Table 1 (continued)
Key Level E MCDHF ∆ E MBPT ∆ E AS ∆ E NIST ∆ E CHIANTI ∆ E MRMP ∆ E GRASP τl MCDHF τv MCDHF τl AS161 3 s p D ) 2 D d P ) 2 P ◦ / s p S ) 4 S d F ) 4 F ◦ / s p D ) 2 D d P ) 2 P ◦ / s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d D ) 2 S ◦ / s p P ) 2 P d S ) 2 P ◦ / s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d G ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d G ) 2 D ◦ / s p P ) 2 P d G ) 2 F ◦ / s p S ) 4 S d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d G ) 2 D ◦ / s p P ) 2 P d P ) 4 S ◦ / s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ / s p P ) 2 P d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ / s S p P ) 4 P d P ) 6 S / s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d F ) 6 D / s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d F ) 2 D ◦ / s S p P ) 4 P d F ) 6 F / s S p P ) 4 P d F ) 6 F / s p D ) 2 D d F ) 2 D ◦ / s S p P ) 4 P d F ) 6 F / s S p P ) 4 P d F ) 6 F / s S p P ) 4 P d F ) 6 F / s S p P ) 4 P d F ) 6 F / Wang et al.
Table 2 . Excitation energies (in cm − ) for the lower levels in Ni XII . E MCDHF are our MCDHFenergies, E NIST the NIST recommended values, and E Obs our suggested experimental values(TN: tentative new identification; D identification as in Del Zanna & Badnell (2016)). ∆ = E MCDHF − E NIST , ∆ = E MCDHF − E Obs .Key Level E MCDHF E NIST ∆ E Obs ∆ s p P ◦ / s p P ◦ / s S p S / s p ( P ) P d D / s p ( P ) P d D / s p ( P ) P d D / s p ( P ) P d D / s p ( P ) P d F / s p ( D ) D d P / s p ( P ) P d F / s p ( P ) P d F / s p ( D ) D d P / s p ( P ) P d F / s p ( P ) P d P / s p ( D ) D d D / s p ( P ) P d F / s p ( P ) P d P / s p ( P ) P d P / s p ( D ) D d D / s p ( D ) D d G / s p ( D ) D d G / s p ( P ) P d F / s p ( D ) D d F / s p ( D ) D d F / s p ( S ) S d D / s p ( S ) S d D / s p ( D ) D d S / s p ( P ) P d P / s p ( P ) P d D / s p ( P ) P d P / s p ( P ) P d D / Table 3 . Excitation energies (in cm − ) and radiative lifetimes (in s) for the lowest 187 (196, 197, 193, 192, 194, 194) levels of Cr VIII (Mn IX, Fe X,Co XI, Ni XII, Cu XIII, Zn XIV). E MCDHF - the present MCDHF calculations; E NIST - observed energies listed in the NIST ASD (Kramida et al.2018); ∆ E : energy differences (in cm − ) between the present calculations E MCDHF and observed energies E NIST ; τ l MCDHF - lifetimes in length formfrom the present MCDHF calculations; τ v MCDHF - lifetimes in velocity form from the present MCDHF calculations; LS -composition - the LS eigenvectorcompositions. Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition24 1 3 s p P ◦ / s p P ◦ / s S p S / s p D ) 1 D d S
24 4 3 s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d F / s p D ) 1 D d G
24 9 3 s p D ) 1 D d P / s p P ) 3 P d P
24 10 3 s p P ) 3 P d F / s p P ) 3 P d F / s p P ) 3 P d F / s p D ) 1 D d P / s p P ) 3 P d P + 0.04 3 s p P ) 3 P d P
24 14 3 s p P ) 3 P d P / s p D ) 1 D d D / s p P ) 3 P d D + 0.12 3 s p S ) 1 S d D
24 16 3 s p P ) 3 P d P / s p D ) 1 D d D + 0.03 3 s p P ) 3 P d P
24 17 3 s p P ) 3 P d P / s p D ) 1 D d D + 0.09 3 s p P ) 3 P d D
24 18 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.11 3 s p D ) 1 D d F
24 19 3 s p D ) 1 D d D / s p P ) 3 P d P + 0.19 3 s p P ) 3 P d D
24 20 3 s p D ) 1 D d G / s p P ) 3 P d F
24 21 3 s p D ) 1 D d G / s p P ) 3 P d F + 0.08 3 s p D ) 1 D d F
24 22 3 s p P ) 3 P d F / s p D ) 1 D d F
24 23 3 s p D ) 1 D d F / s p P ) 3 P d F
24 24 3 s p D ) 1 D d F / s p P ) 3 P d F
24 25 3 s p S ) 1 S d D / s p D ) 1 D d D
24 26 3 s p S ) 1 S d D / s p D ) 1 D d D
24 27 3 s p D ) 1 D d S / s S p S + 0.03 3 s S p P ) 2 P d P ) 2 S
24 28 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.02 3 s p P ) 3 P d D
24 29 3 s p P ) 3 P d P / s p D ) 1 D d P
24 30 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.09 3 s p S ) 1 S d D
24 31 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.12 3 s p S ) 1 S d D
24 32 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
24 33 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
24 34 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
24 35 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
24 36 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
24 37 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
24 38 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
24 39 3 s S p P d D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.07 3 s p P ) 2 P d F ) 4 D ◦
24 40 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
24 41 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
24 42 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
24 43 3 s S p P d F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.07 3 s p P ) 2 P d G ) 2 F ◦
24 44 3 s S p P d D ◦ / s S p P d F ◦ + 0.04 3 s p D ) 2 D d G ) 2 D ◦
24 45 3 s S p P d D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.04 3 s p P ) 2 P d D ) 2 D ◦
24 46 3 s S p P d F ◦ / s S p P d D ◦ + 0.05 3 s p D ) 2 D d G ) 2 F ◦
24 47 3 s S p P d P ◦ / s S p P d P ◦ + 0.17 3 s p D ) 2 D d D ) 2 P ◦
24 48 3 s S p P d P ◦ / s S p P d P ◦ + 0.17 3 s p D ) 2 D d D ) 2 P ◦
24 49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition24 51 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
24 56 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.07 3 s p D ) 2 D d G ) 2 F ◦
24 57 3 s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
24 61 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
24 62 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
24 63 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
24 64 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
24 65 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.23 3 s p S ) 4 S d P ) 4 P ◦
24 66 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.13 3 s p D ) 2 D d P ) 4 P ◦
24 67 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.13 3 s p D ) 2 D d F ) 4 P ◦
24 68 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p D ) 2 D d P ) 4 F ◦
24 69 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.12 3 s p D ) 2 D d F ) 4 P ◦
24 70 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.04 3 s p D ) 2 D d P ) 4 F ◦
24 71 3 s p S ) 4 S d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.18 3 s p P ) 2 P d F ) 4 F ◦
24 72 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.02 3 s p D ) 2 D d P ) 4 F ◦
24 73 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
24 74 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.14 3 s p P ) 2 P d F ) 4 F ◦
24 75 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.14 3 s p P ) 2 P d F ) 4 F ◦
24 76 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 4 F ◦
24 77 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.03 3 s p S ) 4 S d F ) 2 F ◦
24 78 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
24 79 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
24 80 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.13 3 s p D ) 2 D d F ) 4 H ◦
24 81 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
24 83 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.11 3 s p P ) 2 P d D ) 2 D ◦
24 84 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.05 3 s S p P d P ◦
24 85 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.05 3 s p D ) 2 D d D ) 2 D ◦
24 86 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.11 3 s p P ) 2 P d G ) 2 H ◦
24 87 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.10 3 s p P ) 2 P d F ) 4 G ◦
24 88 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.08 3 s p P ) 2 P d P ) 2 D ◦
24 89 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
24 90 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.03 3 s p D ) 2 D d F ) 4 H ◦
24 91 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.05 3 s p D ) 2 D d D ) 2 G ◦
24 92 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.04 3 s p P ) 2 P d F ) 2 G ◦
24 93 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.04 3 s p P ) 2 P d F ) 2 G ◦
24 94 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.08 3 s p D ) 2 D d G ) 2 H ◦
24 95 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
24 96 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
24 97 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
24 98 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
24 99 3 s p S ) 4 S d P ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.17 3 s p D ) 2 D d D ) 2 P ◦
24 100 3 s p D ) 2 D d G ) 2 I ◦ / s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d P ) 2 S ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.13 3 s p P ) 2 P d D ) 2 P ◦
24 103 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.12 3 s p D ) 2 D d F ) 4 D ◦
24 104 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.07 3 s p D ) 2 D d F ) 4 D ◦
24 105 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.10 3 s p P ) 2 P d D ) 2 F ◦
24 106 3 s p P ) 2 P d F ) 2 D ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.13 3 s p P ) 2 P d P ) 4 S ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition24 107 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.08 3 s p D ) 2 D d P ) 2 D ◦
24 108 3 s p S ) 4 S d S ) 4 S ◦ / s p P ) 2 P d P ) 4 S ◦ + 0.07 3 s p D ) 2 D d P ) 2 D ◦
24 109 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d D ) 2 F ◦
24 110 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.15 3 s p P ) 2 P d P ) 4 D ◦
24 111 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.16 3 s p D ) 2 D d D ) 2 S ◦
24 112 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.10 3 s p P ) 2 P d F ) 4 F ◦
24 113 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.09 3 s p D ) 2 D d F ) 4 F ◦
24 114 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.10 3 s p D ) 2 D d F ) 4 F ◦
24 115 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.12 3 s p P ) 2 P d F ) 2 G ◦
24 116 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.11 3 s p P ) 2 P d F ) 2 G ◦
24 117 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.16 3 s p P ) 2 P d G ) 2 G ◦
24 118 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.20 3 s p P ) 2 P d G ) 2 G ◦
24 119 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.15 3 s p D ) 2 D d P ) 4 D ◦
24 120 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d P ) 4 P ◦
24 121 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦
24 122 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.19 3 s p P ) 2 P d P ) 4 D ◦
24 123 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.25 3 s p P ) 2 P d F ) 4 G ◦
24 124 3 s p P ) 2 P d P ) 4 P ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.07 3 s p D ) 2 D d F ) 4 D ◦
24 125 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p D ) 2 D d P ) 4 D ◦
24 126 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.24 3 s p P ) 2 P d F ) 4 G ◦
24 127 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.05 3 s S p P d P ◦
24 128 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.26 3 s p P ) 2 P d F ) 4 G ◦
24 129 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.17 3 s p P ) 2 P d F ) 4 G ◦
24 130 3 s p P ) 2 P d F ) 2 F ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.11 3 s p P ) 2 P d F ) 4 G ◦
24 131 3 s p D ) 2 D d G ) 2 G ◦ / s p P ) 2 P d G ) 2 G ◦ + 0.03 3 s p S ) 4 S d G ) 4 G ◦
24 132 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.13 3 s p S ) 4 S d P ) 4 P ◦
24 133 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.14 3 s p S ) 4 S d P ) 4 P ◦
24 134 3 s p P ) 2 P d F ) 2 F ◦ / s p D ) 2 D d G ) 2 G ◦ + 0.10 3 s p P ) 2 P d G ) 2 F ◦
24 135 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.14 3 s p S ) 4 S d P ) 4 P ◦
24 136 3 s p D ) 2 D d G ) 2 G ◦ / s p P ) 2 P d F ) 2 F ◦ + 0.04 3 s p P ) 2 P d G ) 2 G ◦
24 137 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.13 3 s p D ) 2 D d D ) 2 P ◦
24 138 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.03 3 s p S ) 4 S d G ) 4 G ◦
24 139 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d D ) 2 P ◦
24 140 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.04 3 s p D ) 2 D d F ) 2 H ◦
24 141 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.10 3 s p P ) 2 P d P ) 2 D ◦
24 142 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦
24 143 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 3 P p D ◦ + 0.14 3 s p D ) 2 D d F ) 4 D ◦
24 144 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.08 3 s p P ) 2 P d P ) 2 D ◦
24 145 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 3 P p D ◦ + 0.10 3 s p D ) 2 D d F ) 4 D ◦
24 146 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 3 P p D ◦ + 0.13 3 s p D ) 2 D d F ) 4 D ◦
24 147 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.14 3 s p P ) 2 P d G ) 2 H ◦
24 148 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.14 3 s p P ) 3 P p D ◦
24 149 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 3 P p D ◦ + 0.15 3 s p P ) 2 P d P ) 4 D ◦
24 150 3 s p P ) 2 P d D ) 2 D ◦ / s p P ) 3 P p D ◦ + 0.17 3 s p P ) 2 P d F ) 4 D ◦
24 151 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.16 3 s p S ) 4 S d D ) 4 D ◦
24 152 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.16 3 s p S ) 4 S d D ) 4 D ◦
24 153 3 s p D ) 2 D d G ) 2 F ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.13 3 s S p P d F ◦
24 154 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.12 3 s S p P d F ◦
24 155 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 F ◦
24 156 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 3 P p D ◦ + 0.13 3 s p P ) 2 P d F ) 4 F ◦
24 157 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.09 3 s p P ) 2 P d F ) 2 G ◦
24 158 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.14 3 s p D ) 2 D d F ) 4 F ◦
24 159 3 s p P ) 2 P d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.17 3 s p P ) 3 P p D ◦
24 160 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.08 3 s p P ) 2 P d F ) 2 G ◦
24 161 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.05 3 s p D ) 1 D p P ◦
24 162 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.06 3 s p D ) 1 D p P ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition24 163 3 s p D ) 2 D d P ) 2 D ◦ / s p P ) 3 P p D ◦ + 0.12 3 s p P ) 3 P p D ◦
24 164 3 s p S ) 4 S d P ) 2 P ◦ / s p D ) 2 D d D ) 2 P ◦ + 0.13 3 s p P ) 2 P d P ) 2 P ◦
24 165 3 s p D ) 2 D d P ) 2 P ◦ / s p P ) 3 P p D ◦ + 0.12 3 s p S ) 4 S d P ) 2 P ◦
24 166 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.13 3 s p D ) 2 D d P ) 2 F ◦
24 167 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.17 3 s p D ) 1 D p F ◦
24 168 3 s p D ) 2 D d P ) 2 D ◦ / s p P ) 3 P p D ◦ + 0.09 3 s p D ) 2 D d D ) 2 D ◦
24 169 3 s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.10 3 s p P ) 2 P d D ) 2 D ◦
24 170 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.08 3 s p D ) 1 D p F ◦
24 171 3 s p D ) 2 D d D ) 2 S ◦ / s p P ) 3 P p S ◦ + 0.13 3 s p S ) 4 S d P ) 4 P ◦
24 172 3 s p P ) 2 P d P ) 2 D ◦ / s p P ) 2 P d G ) 2 F ◦ + 0.11 3 s p D ) 2 D d D ) 2 D ◦
24 173 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p D ) 2 D d P ) 4 P ◦
24 174 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p D ) 2 D d P ) 4 P ◦
24 175 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.08 3 s p P ) 3 P p S ◦
24 176 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.14 3 s p P ) 2 P d F ) 2 F ◦
24 177 3 s p P ) 2 P d P ) 4 S ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.19 3 s p P ) 3 P p S ◦
24 178 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦
24 179 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.12 3 s p D ) 2 D d D ) 2 G ◦
24 180 3 s S p P ) 4 P d P ) 6 S / s p P ) 3 P d P ) 6 S
24 181 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 1 D p D ◦ + 0.15 3 s p D ) 2 D d S ) 2 D ◦
24 182 3 s p P ) 2 P d F ) 2 D ◦ / s p D ) 1 D p D ◦ + 0.16 3 s p D ) 2 D d S ) 2 D ◦
24 183 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
24 184 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
24 185 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
24 186 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
24 187 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
25 1 3 s p P ◦ / s p P ◦ / s S p S / s p D ) 1 D d S
25 4 3 s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d F / s p D ) 1 D d G
25 9 3 s p D ) 1 D d P / s p P ) 3 P d P + 0.02 3 s p P ) 3 P d D
25 10 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.02 3 s p P ) 3 P d F
25 11 3 s p P ) 3 P d F / s p P ) 3 P d F / s p D ) 1 D d P + 0.19 3 s p P ) 3 P d P
25 13 3 s p D ) 1 D d P / s p P ) 3 P d F + 0.19 3 s p P ) 3 P d P
25 14 3 s p D ) 1 D d D / s p P ) 3 P d D + 0.11 3 s p S ) 1 S d D
25 15 3 s p P ) 3 P d P / s p P ) 3 P d P / s p P ) 3 P d P + 0.04 3 s p D ) 1 D d D
25 17 3 s p P ) 3 P d P / s p D ) 1 D d D + 0.11 3 s p P ) 3 P d D
25 18 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.10 3 s p D ) 1 D d F
25 19 3 s p D ) 1 D d D / s p P ) 3 P d P + 0.17 3 s p P ) 3 P d D
25 20 3 s p D ) 1 D d G / s p P ) 3 P d F
25 21 3 s p D ) 1 D d G / s p P ) 3 P d F + 0.09 3 s p D ) 1 D d F
25 22 3 s p P ) 3 P d F / s p D ) 1 D d F + 0.02 3 s p D ) 1 D d D
25 23 3 s p D ) 1 D d F / s p P ) 3 P d F
25 24 3 s p D ) 1 D d F / s p P ) 3 P d F
25 25 3 s p S ) 1 S d D / s p D ) 1 D d D
25 26 3 s p S ) 1 S d D / s p D ) 1 D d D
25 27 3 s p D ) 1 D d S / s S p S + 0.03 3 s S p P ) 2 P d P ) 2 S
25 28 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.03 3 s p P ) 3 P d D
25 29 3 s p P ) 3 P d P / s p D ) 1 D d P
25 30 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.09 3 s p S ) 1 S d D
25 31 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.12 3 s p S ) 1 S d D
25 32 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
25 33 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition25 34 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
25 35 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
25 36 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
25 37 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
25 38 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
25 39 3 s S p P d D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.07 3 s p P ) 2 P d F ) 4 D ◦
25 40 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
25 41 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
25 42 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
25 43 3 s S p P d F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.06 3 s p P ) 2 P d G ) 2 F ◦
25 44 3 s S p P d D ◦ / s S p P d F ◦ + 0.04 3 s p D ) 2 D d G ) 2 D ◦
25 45 3 s S p P d D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.04 3 s p P ) 2 P d D ) 2 D ◦
25 46 3 s S p P d F ◦ / s S p P d D ◦ + 0.05 3 s p D ) 2 D d G ) 2 F ◦
25 47 3 s S p P d P ◦ / s S p P d P ◦ + 0.17 3 s p D ) 2 D d D ) 2 P ◦
25 48 3 s S p P d P ◦ / s S p P d P ◦ + 0.16 3 s p D ) 2 D d D ) 2 P ◦
25 49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
25 56 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.06 3 s p D ) 2 D d G ) 2 F ◦
25 57 3 s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
25 61 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
25 62 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
25 63 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
25 64 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.29 3 s p S ) 4 S d P ) 4 P ◦
25 65 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
25 66 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
25 67 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.13 3 s p D ) 2 D d F ) 4 P ◦
25 68 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p D ) 2 D d P ) 4 F ◦
25 69 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.05 3 s p D ) 2 D d P ) 4 F ◦
25 70 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.20 3 s p S ) 4 S d F ) 4 F ◦
25 71 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.13 3 s p D ) 2 D d F ) 4 P ◦
25 72 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.02 3 s p D ) 2 D d P ) 4 F ◦
25 73 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
25 74 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.18 3 s p S ) 4 S d F ) 4 F ◦
25 75 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 4 F ◦
25 76 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 4 F ◦
25 77 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.04 3 s p P ) 2 P d F ) 4 G ◦
25 78 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
25 79 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
25 80 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.14 3 s p D ) 2 D d F ) 4 H ◦
25 81 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d G ) 2 D ◦ / s S p P d P ◦ + 0.16 3 s p D ) 2 D d F ) 2 D ◦
25 83 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
25 84 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.05 3 s S p P d P ◦
25 85 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.11 3 s p D ) 2 D d D ) 2 D ◦
25 86 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.11 3 s p P ) 2 P d G ) 2 H ◦
25 87 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.11 3 s p P ) 2 P d F ) 4 G ◦
25 88 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.07 3 s p P ) 2 P d P ) 2 D ◦
25 89 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition25 90 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.04 3 s p D ) 2 D d F ) 4 H ◦
25 91 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.07 3 s p D ) 2 D d D ) 2 G ◦
25 92 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.03 3 s p P ) 2 P d F ) 2 G ◦
25 93 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.04 3 s p P ) 2 P d F ) 4 G ◦
25 94 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.09 3 s p D ) 2 D d G ) 2 H ◦
25 95 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
25 96 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
25 97 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
25 98 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
25 99 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.20 3 s p S ) 4 S d P ) 2 P ◦
25 100 3 s p D ) 2 D d G ) 2 I ◦ / s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d P ) 2 S ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.12 3 s p P ) 2 P d D ) 2 P ◦
25 103 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p D ) 2 D d F ) 4 D ◦
25 104 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.07 3 s p D ) 2 D d F ) 4 D ◦
25 105 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p P ) 2 P d D ) 2 F ◦
25 106 3 s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 D ◦
25 107 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.08 3 s p P ) 2 P d F ) 2 F ◦
25 108 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.11 3 s p P ) 2 P d D ) 2 F ◦
25 109 3 s p P ) 2 P d D ) 2 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.16 3 s p P ) 2 P d D ) 2 F ◦
25 110 3 s p S ) 4 S d S ) 4 S ◦ / s p P ) 2 P d P ) 4 S ◦ + 0.04 3 s p P ) 2 P d D ) 2 P ◦
25 111 3 s p D ) 2 D d F ) 2 P ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.16 3 s p S ) 4 S d P ) 2 P ◦
25 112 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.09 3 s p D ) 2 D d F ) 4 F ◦
25 113 3 s p P ) 2 P d D ) 2 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.12 3 s p D ) 2 D d P ) 4 F ◦
25 114 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.10 3 s p D ) 2 D d F ) 4 F ◦
25 115 3 s p P ) 2 P d F ) 4 F ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d F ) 2 G ◦
25 116 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.12 3 s p P ) 2 P d F ) 2 G ◦
25 117 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.16 3 s p P ) 2 P d F ) 4 F ◦
25 118 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.19 3 s p P ) 2 P d G ) 2 G ◦
25 119 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.16 3 s p D ) 2 D d P ) 4 D ◦
25 120 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.15 3 s p P ) 2 P d P ) 4 P ◦
25 121 3 s p P ) 2 P d P ) 4 P ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p D ) 2 D d F ) 4 D ◦
25 122 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.17 3 s p P ) 2 P d P ) 4 D ◦
25 123 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.24 3 s p P ) 2 P d F ) 4 G ◦
25 124 3 s p P ) 2 P d P ) 4 P ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.08 3 s p D ) 2 D d F ) 4 D ◦
25 125 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.09 3 s p D ) 2 D d P ) 4 D ◦
25 126 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.23 3 s p P ) 2 P d F ) 4 G ◦
25 127 3 s p P ) 2 P d P ) 4 P ◦ / s S p P d P ◦ + 0.04 3 s p D ) 2 D d F ) 4 P ◦
25 128 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.26 3 s p P ) 2 P d F ) 4 G ◦
25 129 3 s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d G ) 2 F ◦ + 0.09 3 s p D ) 2 D d F ) 4 G ◦
25 130 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.19 3 s p D ) 2 D d F ) 4 G ◦
25 131 3 s p D ) 2 D d G ) 2 G ◦ / s p P ) 2 P d G ) 2 G ◦ + 0.04 3 s p S ) 4 S d G ) 4 G ◦
25 132 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.12 3 s p S ) 4 S d P ) 4 P ◦
25 133 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.13 3 s p S ) 4 S d P ) 4 P ◦
25 134 3 s p P ) 2 P d F ) 2 F ◦ / s p D ) 2 D d G ) 2 G ◦ + 0.09 3 s p P ) 2 P d G ) 2 F ◦
25 135 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.14 3 s p S ) 4 S d P ) 4 P ◦
25 136 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.12 3 s p D ) 2 D d D ) 2 P ◦
25 137 3 s p D ) 2 D d G ) 2 G ◦ / s p P ) 2 P d F ) 2 F ◦ + 0.05 3 s S p P d F ◦
25 138 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d D ) 2 P ◦
25 139 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.04 3 s p S ) 4 S d G ) 4 G ◦
25 140 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.05 3 s p D ) 2 D d G ) 2 H ◦
25 141 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦
25 142 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.10 3 s p P ) 2 P d P ) 2 D ◦
25 143 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 D ◦
25 144 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.10 3 s p P ) 2 P d P ) 2 D ◦
25 145 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d F ) 4 D ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition25 146 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.15 3 s p P ) 2 P d G ) 2 H ◦
25 147 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.12 3 s p P ) 2 P d F ) 4 D ◦
25 148 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 D ◦
25 149 3 s p P ) 2 P d P ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.16 3 s p P ) 2 P d F ) 4 D ◦
25 150 3 s p P ) 2 P d P ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.20 3 s p P ) 2 P d F ) 4 D ◦
25 151 3 s p D ) 2 D d G ) 2 F ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.10 3 s S p P d F ◦
25 152 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.23 3 s p S ) 4 S d D ) 4 D ◦
25 153 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.25 3 s p S ) 4 S d D ) 4 D ◦
25 154 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 F ◦
25 155 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.14 3 s p P ) 2 P d F ) 2 F ◦
25 156 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.15 3 s p D ) 2 D d F ) 4 F ◦
25 157 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.10 3 s p D ) 2 D d G ) 2 D ◦
25 158 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.11 3 s p D ) 2 D d D ) 2 D ◦
25 159 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.09 3 s p P ) 2 P d F ) 2 G ◦
25 160 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.15 3 s p D ) 2 D d F ) 4 F ◦
25 161 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.15 3 s p D ) 2 D d F ) 4 F ◦
25 162 3 s p D ) 2 D d D ) 2 S ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.16 3 s p S ) 4 S d P ) 2 P ◦
25 163 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.07 3 s p P ) 2 P d F ) 2 G ◦
25 164 3 s p D ) 2 D d P ) 2 P ◦ / s p P ) 2 P d S ) 2 P ◦ + 0.13 3 s p S ) 4 S d P ) 2 P ◦
25 165 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.18 3 s p D ) 2 D d P ) 2 P ◦
25 166 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d D ) 2 P ◦ + 0.14 3 s p D ) 2 D d D ) 2 D ◦
25 167 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d S ) 2 P ◦ + 0.16 3 s p P ) 2 P d P ) 2 P ◦
25 168 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.12 3 s p D ) 2 D d P ) 2 F ◦
25 169 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.15 3 s p P ) 2 P d D ) 2 F ◦
25 170 3 s p D ) 2 D d D ) 2 D ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.10 3 s p D ) 2 D d F ) 4 P ◦
25 171 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.08 3 s p S ) 4 S d F ) 2 F ◦
25 172 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.14 3 s p P ) 2 P d G ) 2 F ◦
25 173 3 s p D ) 2 D d F ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.07 3 s p P ) 2 P d S ) 2 P ◦
25 174 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p D ) 2 D d P ) 4 P ◦
25 175 3 s p D ) 2 D d G ) 2 D ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.14 3 s p D ) 2 D d D ) 2 D ◦
25 176 3 s p P ) 2 P d P ) 4 S ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.09 3 s p S ) 4 S d P ) 4 P ◦
25 177 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.14 3 s p P ) 2 P d F ) 2 F ◦
25 178 3 s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.13 3 s p P ) 2 P d F ) 2 D ◦
25 179 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.12 3 s p P ) 2 P d F ) 2 D ◦
25 180 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.12 3 s p D ) 2 D d D ) 2 G ◦
25 181 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦
25 182 3 s S p P ) 4 P d P ) 6 S / s p P ) 3 P d P ) 6 S
25 183 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
25 184 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
25 185 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
25 186 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s S p P ) 4 P d F ) 6 F
25 187 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
25 188 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.13 3 s p D ) 2 D d D ) 2 F ◦
25 189 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p S ) 4 S d F ) 2 F ◦
25 190 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F
25 191 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.03 3 s S p P ) 4 P d P ) 6 D
25 192 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.03 3 s S p P ) 4 P d P ) 6 D
25 193 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.03 3 s S p P ) 4 P d F ) 6 D
25 194 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F
25 195 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F
25 196 3 s p D ) 2 D d F ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.16 3 s p D ) 2 D d G ) 2 D ◦
26 1 3 s p P ◦ / s p P ◦ / s S p S / s p D ) 1 D d S
26 4 3 s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d D / Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition26 7 3 s p P ) 3 P d D / s p P ) 3 P d F / s p D ) 1 D d G
26 9 3 s p D ) 1 D d P / s p P ) 3 P d P + 0.03 3 s p P ) 3 P d D
26 10 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.03 3 s p P ) 3 P d F
26 11 3 s p P ) 3 P d F / s p D ) 1 D d P / s p P ) 3 P d P + 0.18 3 s p P ) 3 P d F
26 13 3 s p P ) 3 P d F / s p D ) 1 D d P + 0.07 3 s p P ) 3 P d P
26 14 3 s p D ) 1 D d D / s p P ) 3 P d D + 0.10 3 s p S ) 1 S d D
26 15 3 s p P ) 3 P d P / s p P ) 3 P d P / s p P ) 3 P d P + 0.06 3 s p D ) 1 D d P
26 17 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.10 3 s p D ) 1 D d F
26 18 3 s p P ) 3 P d P / s p D ) 1 D d D + 0.12 3 s p P ) 3 P d D
26 19 3 s p D ) 1 D d D / s p P ) 3 P d P + 0.16 3 s p P ) 3 P d D
26 20 3 s p D ) 1 D d G / s p P ) 3 P d F
26 21 3 s p D ) 1 D d G / s p P ) 3 P d F + 0.09 3 s p D ) 1 D d F
26 22 3 s p P ) 3 P d F / s p D ) 1 D d F + 0.03 3 s p D ) 1 D d D
26 23 3 s p D ) 1 D d F / s p P ) 3 P d F + 0.03 3 s p D ) 1 D d D
26 24 3 s p D ) 1 D d F / s p P ) 3 P d F
26 25 3 s p S ) 1 S d D / s p D ) 1 D d D
26 26 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.02 3 s p P ) 3 P d F
26 27 3 s p D ) 1 D d S / s S p S + 0.03 3 s S p P ) 2 P d P ) 2 S
26 28 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.03 3 s p P ) 3 P d D
26 29 3 s p P ) 3 P d P / s p D ) 1 D d P
26 30 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.09 3 s p S ) 1 S d D
26 31 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.12 3 s p S ) 1 S d D
26 32 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
26 33 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
26 34 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
26 35 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
26 36 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
26 37 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.02 3 s S p P d D ◦
26 38 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
26 39 3 s S p P d D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.06 3 s p P ) 2 P d F ) 4 D ◦
26 40 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
26 41 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
26 42 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
26 43 3 s S p P d F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.06 3 s p P ) 2 P d G ) 2 F ◦
26 44 3 s S p P d D ◦ / s S p P d F ◦ + 0.05 3 s p D ) 2 D d G ) 2 D ◦
26 45 3 s S p P d D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.04 3 s p P ) 2 P d D ) 2 D ◦
26 46 3 s S p P d F ◦ / s S p P d D ◦ + 0.05 3 s p D ) 2 D d G ) 2 F ◦
26 47 3 s S p P d P ◦ / s S p P d P ◦ + 0.16 3 s p D ) 2 D d D ) 2 P ◦
26 48 3 s S p P d P ◦ / s S p P d P ◦ + 0.16 3 s p D ) 2 D d D ) 2 P ◦
26 49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
26 56 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.06 3 s p D ) 2 D d G ) 2 F ◦
26 57 3 s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
26 61 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
26 62 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
26 63 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.30 3 s p S ) 4 S d P ) 4 P ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition26 64 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
26 65 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 F ◦
26 66 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
26 67 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.12 3 s p D ) 2 D d F ) 4 P ◦
26 68 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p D ) 2 D d P ) 4 F ◦
26 69 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.05 3 s p D ) 2 D d P ) 4 F ◦
26 70 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.17 3 s p S ) 4 S d F ) 4 F ◦
26 71 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.13 3 s p D ) 2 D d F ) 4 P ◦
26 72 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.03 3 s p D ) 2 D d P ) 4 F ◦
26 73 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
26 74 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.16 3 s p S ) 4 S d F ) 4 F ◦
26 75 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 4 F ◦
26 76 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.12 3 s p P ) 2 P d F ) 4 F ◦
26 77 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.04 3 s p P ) 2 P d F ) 4 G ◦
26 78 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
26 79 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
26 80 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.15 3 s p D ) 2 D d F ) 4 H ◦
26 81 3 s p D ) 2 D d F ) 4 H ◦ / s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.09 3 s p D ) 2 D d F ) 2 D ◦
26 83 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.05 3 s S p P d P ◦
26 84 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
26 85 3 s p D ) 2 D d D ) 2 D ◦ / s S p P d P ◦ + 0.16 3 s p D ) 2 D d F ) 2 D ◦
26 86 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.11 3 s p P ) 2 P d G ) 2 H ◦
26 87 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.11 3 s p P ) 2 P d F ) 4 G ◦
26 88 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.06 3 s p P ) 2 P d P ) 2 D ◦
26 89 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.03 3 s p D ) 2 D d D ) 2 F ◦
26 90 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.04 3 s p D ) 2 D d D ) 2 G ◦
26 91 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.10 3 s p D ) 2 D d D ) 2 G ◦
26 92 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.03 3 s p D ) 2 D d D ) 2 F ◦
26 93 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.06 3 s p P ) 2 P d F ) 4 G ◦
26 94 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.10 3 s p D ) 2 D d G ) 2 H ◦
26 95 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
26 96 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
26 97 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
26 98 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
26 99 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.20 3 s p S ) 4 S d P ) 2 P ◦
26 100 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d G ) 2 H ◦
26 101 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.15 3 s p D ) 2 D d F ) 4 D ◦
26 102 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d P ) 2 S ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.11 3 s p S ) 4 S d P ) 2 P ◦
26 104 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.08 3 s p D ) 2 D d F ) 4 D ◦
26 105 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p P ) 2 P d D ) 2 F ◦
26 106 3 s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 D ◦
26 107 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.09 3 s p P ) 2 P d F ) 2 F ◦
26 108 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p P ) 2 P d D ) 2 F ◦
26 109 3 s p D ) 2 D d P ) 2 F ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.14 3 s p P ) 2 P d D ) 2 F ◦
26 110 3 s p S ) 4 S d S ) 4 S ◦ / s p P ) 2 P d P ) 4 S ◦ + 0.04 3 s p P ) 2 P d D ) 2 P ◦
26 111 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.16 3 s p S ) 4 S d P ) 2 P ◦
26 112 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.08 3 s p D ) 2 D d F ) 4 F ◦
26 113 3 s p P ) 2 P d D ) 2 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.18 3 s p D ) 2 D d P ) 4 F ◦
26 114 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.10 3 s p D ) 2 D d F ) 4 F ◦
26 115 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.12 3 s p P ) 2 P d G ) 2 G ◦
26 116 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.12 3 s p P ) 2 P d F ) 2 G ◦
26 117 3 s p P ) 2 P d F ) 4 F ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.14 3 s p D ) 2 D d F ) 2 G ◦
26 118 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.20 3 s p P ) 2 P d F ) 4 F ◦
26 119 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.16 3 s p D ) 2 D d P ) 4 D ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition26 120 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.16 3 s p P ) 2 P d P ) 4 P ◦
26 121 3 s p P ) 2 P d P ) 4 P ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.09 3 s p D ) 2 D d P ) 4 D ◦
26 122 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.24 3 s p P ) 2 P d F ) 4 G ◦
26 123 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.14 3 s p P ) 2 P d P ) 4 D ◦
26 124 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.09 3 s p P ) 2 P d P ) 4 D ◦
26 125 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.22 3 s p P ) 2 P d F ) 4 G ◦
26 126 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.07 3 s S p P d P ◦
26 127 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.08 3 s p D ) 2 D d P ) 4 D ◦
26 128 3 s p P ) 2 P d P ) 2 D ◦ / s p P ) 2 P d F ) 2 F ◦ + 0.10 3 s p D ) 2 D d F ) 4 D ◦
26 129 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.24 3 s p P ) 2 P d F ) 4 G ◦
26 130 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.21 3 s p D ) 2 D d F ) 4 G ◦
26 131 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.10 3 s p S ) 4 S d P ) 4 P ◦
26 132 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.12 3 s p S ) 4 S d P ) 4 P ◦
26 133 3 s p D ) 2 D d G ) 2 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.04 3 s p P ) 2 P d G ) 2 G ◦
26 134 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.13 3 s p S ) 4 S d P ) 4 P ◦
26 135 3 s p P ) 2 P d F ) 2 F ◦ / s p D ) 2 D d G ) 2 G ◦ + 0.08 3 s p P ) 2 P d G ) 2 F ◦
26 136 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.10 3 s p D ) 2 D d D ) 2 P ◦
26 137 3 s p D ) 2 D d G ) 2 G ◦ / s p P ) 2 P d F ) 2 F ◦ + 0.05 3 s S p P d F ◦
26 138 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d F ) 2 P ◦
26 139 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.04 3 s p S ) 4 S d G ) 4 G ◦
26 140 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.03 3 s p D ) 2 D d G ) 2 H ◦
26 141 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦
26 142 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d F ) 4 D ◦
26 143 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.10 3 s p P ) 2 P d P ) 2 D ◦
26 144 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.09 3 s p P ) 2 P d P ) 2 D ◦
26 145 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.16 3 s p P ) 2 P d F ) 4 D ◦
26 146 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.14 3 s p P ) 2 P d F ) 4 D ◦
26 147 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.12 3 s p P ) 2 P d F ) 4 D ◦
26 148 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.18 3 s p P ) 2 P d G ) 2 H ◦
26 149 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.13 3 s p S ) 4 S d D ) 4 D ◦
26 150 3 s p P ) 2 P d P ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.16 3 s p P ) 2 P d F ) 4 D ◦
26 151 3 s p D ) 2 D d G ) 2 F ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.10 3 s p P ) 2 P d F ) 4 D ◦
26 152 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.22 3 s p S ) 4 S d D ) 4 D ◦
26 153 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 F ◦
26 154 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.25 3 s p S ) 4 S d D ) 4 D ◦
26 155 3 s p P ) 2 P d F ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.13 3 s p D ) 2 D d P ) 2 F ◦
26 156 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.15 3 s p D ) 2 D d F ) 4 F ◦
26 157 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.10 3 s p D ) 2 D d G ) 2 D ◦
26 158 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.09 3 s p P ) 2 P d D ) 2 D ◦
26 159 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.09 3 s p P ) 2 P d F ) 2 G ◦
26 160 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.14 3 s p D ) 2 D d F ) 4 F ◦
26 161 3 s p D ) 2 D d P ) 2 P ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.17 3 s p S ) 4 S d P ) 2 P ◦
26 162 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.13 3 s p D ) 2 D d F ) 4 F ◦
26 163 3 s p D ) 2 D d P ) 2 P ◦ / s p S ) 4 S d P ) 2 P ◦ + 0.15 3 s p P ) 2 P d S ) 2 P ◦
26 164 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.06 3 s p D ) 2 D d G ) 2 G ◦
26 165 3 s p D ) 2 D d D ) 2 S ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.15 3 s p D ) 2 D d P ) 2 P ◦
26 166 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.10 3 s p D ) 2 D d D ) 2 P ◦
26 167 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d D ) 2 P ◦ + 0.14 3 s p P ) 2 P d P ) 2 P ◦
26 168 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.11 3 s p P ) 2 P d G ) 2 F ◦
26 169 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.14 3 s p P ) 2 P d D ) 2 F ◦
26 170 3 s p D ) 2 D d G ) 2 D ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.15 3 s p D ) 2 D d D ) 2 D ◦
26 171 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.09 3 s p D ) 2 D d P ) 2 F ◦
26 172 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.13 3 s p P ) 2 P d G ) 2 F ◦
26 173 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p D ) 2 D d P ) 4 P ◦
26 174 3 s p D ) 2 D d F ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.11 3 s p P ) 2 P d S ) 2 P ◦
26 175 3 s p D ) 2 D d G ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.12 3 s p S ) 4 S d P ) 4 P ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition26 176 3 s p P ) 2 P d P ) 4 S ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.07 3 s p S ) 4 S d P ) 4 P ◦
26 177 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.13 3 s p P ) 2 P d F ) 2 F ◦
26 178 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.14 3 s p P ) 2 P d F ) 2 D ◦
26 179 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.12 3 s p P ) 2 P d F ) 2 D ◦
26 180 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.12 3 s p D ) 2 D d D ) 2 G ◦
26 181 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦
26 182 3 s S p P ) 4 P d P ) 6 S / s p P ) 3 P d P ) 6 S
26 183 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
26 184 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
26 185 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s S p P ) 4 P d F ) 6 F
26 186 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.08 3 s S p P ) 4 P d F ) 6 F
26 187 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.07 3 s S p P ) 4 P d F ) 6 F
26 188 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
26 189 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
26 190 3 s p D ) 2 D d F ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.16 3 s p D ) 2 D d G ) 2 D ◦
26 191 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.02 3 s S p P ) 4 P d F ) 6 G
26 192 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.04 3 s S p P ) 4 P d P ) 6 D
26 193 3 s p D ) 2 D d F ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.17 3 s p P ) 2 P d P ) 2 D ◦
26 194 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.05 3 s S p P ) 4 P d P ) 6 D
26 195 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F
26 196 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F
26 197 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.03 3 s S p P ) 4 P d F ) 6 D
27 1 3 s p P ◦ / s p P ◦ / s S p S / s p D ) 1 D d S
27 4 3 s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d F
27 6 3 s p P ) 3 P d D / s p P ) 3 P d D / s p D ) 1 D d P
27 8 3 s p P ) 3 P d F / s p D ) 1 D d G
27 9 3 s p D ) 1 D d P / s p P ) 3 P d P + 0.04 3 s p P ) 3 P d D
27 10 3 s p P ) 3 P d F / s p P ) 3 P d F + 0.05 3 s p D ) 1 D d G
27 11 3 s p P ) 3 P d F / s p D ) 1 D d P / s p P ) 3 P d P + 0.20 3 s p P ) 3 P d F
27 13 3 s p P ) 3 P d F / s p D ) 1 D d P + 0.08 3 s p P ) 3 P d P
27 14 3 s p P ) 3 P d P / s p D ) 1 D d D / s p P ) 3 P d D + 0.10 3 s p P ) 3 P d P
27 16 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.09 3 s p D ) 1 D d F
27 17 3 s p P ) 3 P d P / s p P ) 3 P d P + 0.07 3 s p D ) 1 D d P
27 18 3 s p P ) 3 P d P / s p D ) 1 D d D + 0.12 3 s p P ) 3 P d D
27 19 3 s p D ) 1 D d D / s p P ) 3 P d P + 0.16 3 s p P ) 3 P d D
27 20 3 s p D ) 1 D d G / s p P ) 3 P d F
27 21 3 s p D ) 1 D d G / s p P ) 3 P d F + 0.10 3 s p D ) 1 D d F
27 22 3 s p P ) 3 P d F / s p D ) 1 D d F + 0.04 3 s p D ) 1 D d D
27 23 3 s p D ) 1 D d F / s p P ) 3 P d F + 0.03 3 s p D ) 1 D d D
27 24 3 s p D ) 1 D d F / s p P ) 3 P d F
27 25 3 s p S ) 1 S d D / s p D ) 1 D d D
27 26 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.03 3 s p P ) 3 P d F
27 27 3 s p D ) 1 D d S / s S p S + 0.03 3 s S p P ) 2 P d P ) 2 S
27 28 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.04 3 s p P ) 3 P d D
27 29 3 s p P ) 3 P d P / s p D ) 1 D d P
27 30 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.08 3 s p S ) 1 S d D
27 31 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.13 3 s p S ) 1 S d D
27 32 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
27 33 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
27 34 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
27 35 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
27 36 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.02 3 s S p P d D ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition27 37 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.03 3 s S p P d D ◦
27 38 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
27 39 3 s S p P d D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.06 3 s p P ) 2 P d F ) 4 D ◦
27 40 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
27 41 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
27 42 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
27 43 3 s S p P d F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.06 3 s p P ) 2 P d G ) 2 F ◦
27 44 3 s S p P d D ◦ / s S p P d F ◦ + 0.05 3 s p D ) 2 D d G ) 2 D ◦
27 45 3 s S p P d D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.04 3 s S p P d P ◦
27 46 3 s S p P d F ◦ / s S p P d D ◦ + 0.05 3 s p D ) 2 D d G ) 2 F ◦
27 47 3 s S p P d P ◦ / s S p P d P ◦ + 0.16 3 s p D ) 2 D d D ) 2 P ◦
27 48 3 s S p P d P ◦ / s S p P d P ◦ + 0.15 3 s p D ) 2 D d D ) 2 P ◦
27 49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
27 56 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.06 3 s p D ) 2 D d G ) 2 F ◦
27 57 3 s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
27 61 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
27 62 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.13 3 s p D ) 2 D d F ) 4 P ◦
27 63 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
27 64 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.10 3 s p D ) 2 D d P ) 4 F ◦
27 65 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 F ◦
27 66 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
27 67 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.10 3 s p D ) 2 D d F ) 4 P ◦
27 68 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p S ) 4 S d D ) 4 D ◦
27 69 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.05 3 s p D ) 2 D d P ) 4 F ◦
27 70 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.16 3 s p S ) 4 S d D ) 4 D ◦
27 71 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.28 3 s p S ) 4 S d P ) 4 P ◦
27 72 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.03 3 s p D ) 2 D d P ) 4 F ◦
27 73 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.14 3 s p S ) 4 S d F ) 4 F ◦
27 74 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
27 75 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.12 3 s p P ) 2 P d F ) 4 F ◦
27 76 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.11 3 s p P ) 2 P d F ) 4 F ◦
27 77 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.04 3 s p D ) 2 D d D ) 2 F ◦
27 78 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.02 3 s p S ) 4 S d G ) 4 G ◦
27 79 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
27 80 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.16 3 s p D ) 2 D d F ) 4 H ◦
27 81 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.06 3 s S p P d P ◦
27 82 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.05 3 s p D ) 2 D d F ) 2 D ◦
27 83 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.15 3 s S p P d P ◦
27 85 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.07 3 s p D ) 2 D d G ) 2 F ◦
27 86 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.11 3 s p P ) 2 P d G ) 2 H ◦
27 87 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.11 3 s p P ) 2 P d F ) 4 G ◦
27 88 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.06 3 s p P ) 2 P d P ) 2 D ◦
27 89 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.05 3 s p D ) 2 D d D ) 2 F ◦
27 90 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p D ) 2 D d D ) 2 G ◦
27 91 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.14 3 s p D ) 2 D d D ) 2 G ◦
27 92 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.04 3 s p D ) 2 D d D ) 2 F ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition27 93 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.08 3 s p P ) 2 P d F ) 4 G ◦
27 94 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.11 3 s p D ) 2 D d G ) 2 H ◦
27 95 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
27 96 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.06 3 s S p P d F ◦
27 97 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
27 98 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.06 3 s S p P d F ◦
27 99 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.19 3 s p S ) 4 S d P ) 2 P ◦
27 100 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.16 3 s p D ) 2 D d F ) 4 D ◦
27 101 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d G ) 2 H ◦ + 0.02 3 s p D ) 2 D d G ) 2 H ◦
27 102 3 s p P ) 2 P d P ) 2 S ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.11 3 s p S ) 4 S d P ) 2 P ◦
27 103 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.08 3 s p D ) 2 D d F ) 4 D ◦
27 104 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p P ) 2 P d D ) 2 F ◦
27 106 3 s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.12 3 s p P ) 2 P d F ) 4 D ◦
27 107 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.09 3 s p P ) 2 P d F ) 2 F ◦
27 108 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.08 3 s p P ) 2 P d D ) 2 F ◦
27 109 3 s p P ) 2 P d P ) 2 D ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.13 3 s p P ) 2 P d F ) 4 D ◦
27 110 3 s p S ) 4 S d S ) 4 S ◦ / s p P ) 2 P d P ) 4 S ◦ + 0.03 3 s p D ) 2 D d D ) 2 P ◦
27 111 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.07 3 s p D ) 2 D d P ) 2 D ◦
27 112 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.17 3 s p S ) 4 S d P ) 2 P ◦
27 113 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.10 3 s p P ) 2 P d F ) 4 D ◦
27 114 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.14 3 s p P ) 2 P d D ) 2 F ◦
27 115 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 2 G ◦
27 116 3 s p P ) 2 P d D ) 2 F ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.14 3 s p P ) 2 P d G ) 2 G ◦
27 117 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.12 3 s p D ) 2 D d P ) 4 F ◦
27 118 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.18 3 s p D ) 2 D d P ) 4 D ◦
27 119 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.18 3 s p P ) 2 P d P ) 4 P ◦
27 120 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.22 3 s p P ) 2 P d F ) 4 F ◦
27 121 3 s p P ) 2 P d P ) 4 P ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p D ) 2 D d P ) 4 D ◦
27 122 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.24 3 s p P ) 2 P d F ) 4 G ◦
27 123 3 s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.11 3 s p P ) 2 P d P ) 4 D ◦
27 124 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.20 3 s p P ) 2 P d F ) 4 G ◦
27 125 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.09 3 s p P ) 2 P d P ) 4 D ◦
27 126 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.09 3 s S p P d P ◦
27 127 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p S ) 4 S d G ) 4 G ◦
27 128 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.08 3 s p P ) 2 P d P ) 4 P ◦
27 129 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.20 3 s p P ) 2 P d F ) 4 G ◦
27 130 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.20 3 s p D ) 2 D d F ) 4 G ◦
27 131 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.09 3 s p P ) 2 P d D ) 2 P ◦
27 132 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.11 3 s p S ) 4 S d P ) 4 P ◦
27 133 3 s p D ) 2 D d G ) 2 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.04 3 s p D ) 2 D d F ) 4 G ◦
27 134 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.12 3 s p S ) 4 S d P ) 4 P ◦
27 135 3 s p P ) 2 P d F ) 2 F ◦ / s p D ) 2 D d G ) 2 G ◦ + 0.07 3 s p P ) 2 P d G ) 2 F ◦
27 136 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.12 3 s p D ) 2 D d P ) 4 P ◦
27 137 3 s p D ) 2 D d G ) 2 G ◦ / s p P ) 2 P d F ) 2 F ◦ + 0.07 3 s S p P d F ◦
27 138 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d F ) 2 P ◦
27 139 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.05 3 s p S ) 4 S d G ) 4 G ◦
27 140 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.02 3 s p D ) 2 D d G ) 2 G ◦
27 141 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.14 3 s p P ) 2 P d F ) 4 D ◦
27 142 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.05 3 s p P ) 2 P d G ) 2 H ◦
27 143 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.16 3 s p D ) 2 D d P ) 4 D ◦
27 144 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.17 3 s p D ) 2 D d F ) 4 D ◦
27 145 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.12 3 s p P ) 2 P d F ) 4 D ◦
27 146 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.09 3 s p P ) 2 P d P ) 2 D ◦
27 147 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d F ) 4 D ◦
27 148 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.20 3 s p P ) 2 P d G ) 2 H ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition27 149 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.18 3 s p D ) 2 D d P ) 4 D ◦
27 150 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.17 3 s p S ) 4 S d D ) 4 D ◦
27 151 3 s p P ) 2 P d F ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.10 3 s p D ) 2 D d D ) 2 F ◦
27 152 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.21 3 s p S ) 4 S d D ) 4 D ◦
27 153 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 F ◦
27 154 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.24 3 s p S ) 4 S d D ) 4 D ◦
27 155 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.14 3 s p P ) 2 P d F ) 2 F ◦
27 156 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.14 3 s p D ) 2 D d F ) 4 F ◦
27 157 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.10 3 s p D ) 2 D d G ) 2 D ◦
27 158 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.08 3 s p P ) 2 P d F ) 4 F ◦
27 159 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.13 3 s p D ) 2 D d F ) 4 F ◦
27 160 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.08 3 s p P ) 2 P d F ) 2 G ◦
27 161 3 s p D ) 2 D d P ) 2 P ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.18 3 s p S ) 4 S d P ) 2 P ◦
27 162 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.12 3 s p D ) 2 D d F ) 4 F ◦
27 163 3 s p D ) 2 D d P ) 2 P ◦ / s p S ) 4 S d P ) 2 P ◦ + 0.09 3 s p P ) 2 P d S ) 2 P ◦
27 164 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.07 3 s p D ) 2 D d G ) 2 G ◦
27 165 3 s p D ) 2 D d D ) 2 S ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.09 3 s p D ) 2 D d P ) 2 P ◦
27 166 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.09 3 s p D ) 2 D d F ) 2 D ◦
27 167 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d G ) 2 F ◦ + 0.12 3 s p P ) 2 P d D ) 2 F ◦
27 168 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d D ) 2 P ◦ + 0.11 3 s p P ) 2 P d P ) 2 P ◦
27 169 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.13 3 s p D ) 2 D d G ) 2 F ◦
27 170 3 s p D ) 2 D d F ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.10 3 s p D ) 2 D d D ) 2 D ◦
27 171 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.10 3 s p D ) 2 D d P ) 2 F ◦
27 172 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.13 3 s p P ) 2 P d G ) 2 F ◦
27 173 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.05 3 s p D ) 2 D d D ) 2 S ◦
27 174 3 s p D ) 2 D d G ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.11 3 s p S ) 4 S d P ) 4 P ◦
27 175 3 s p D ) 2 D d G ) 2 D ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.15 3 s p P ) 2 P d S ) 2 P ◦
27 176 3 s p P ) 2 P d P ) 4 S ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.06 3 s p S ) 4 S d P ) 4 P ◦
27 177 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.12 3 s p P ) 2 P d F ) 2 F ◦
27 178 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.14 3 s p P ) 2 P d F ) 2 D ◦
27 179 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.12 3 s p P ) 2 P d F ) 2 D ◦
27 180 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦
27 181 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦
27 182 3 s S p P ) 4 P d P ) 6 S / s p P ) 3 P d P ) 6 S
27 183 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
27 184 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
27 185 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
27 186 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.08 3 s S p P ) 4 P d F ) 6 F
27 187 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.11 3 s S p P ) 4 P d F ) 6 F
27 188 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
27 189 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.09 3 s S p P ) 4 P d F ) 6 F
27 190 3 s p D ) 2 D d F ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.16 3 s p D ) 2 D d G ) 2 D ◦
27 191 3 s p D ) 2 D d F ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.17 3 s p P ) 2 P d P ) 2 D ◦
27 192 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.03 3 s S p P ) 4 P d F ) 6 G
27 193 3 s S p P ) 4 P d F ) 6 F / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 F
28 1 3 s p P ◦ / s p P ◦ / s S p S / s p D ) 1 D d S
28 4 3 s p P ) 3 P d D / s p P ) 3 P d D / s p P ) 3 P d F
28 6 3 s p P ) 3 P d D / s p P ) 3 P d P
28 7 3 s p P ) 3 P d D / s p D ) 1 D d P + 0.02 3 s p P ) 3 P d P
28 8 3 s p P ) 3 P d F / s p D ) 1 D d G
28 9 3 s p D ) 1 D d P / s p P ) 3 P d P + 0.06 3 s p P ) 3 P d D
28 10 3 s p P ) 3 P d F / s p P ) 3 P d F + 0.07 3 s p D ) 1 D d G
28 11 3 s p P ) 3 P d F / s p D ) 1 D d P / s p P ) 3 P d F + 0.19 3 s p P ) 3 P d P Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition28 13 3 s p P ) 3 P d F / s p D ) 1 D d P + 0.13 3 s p P ) 3 P d P
28 14 3 s p P ) 3 P d P / s p D ) 1 D d D / s p P ) 3 P d D + 0.19 3 s p P ) 3 P d F
28 16 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.13 3 s p P ) 3 P d F
28 17 3 s p P ) 3 P d P / s p P ) 3 P d P + 0.09 3 s p D ) 1 D d P
28 18 3 s p P ) 3 P d P / s p D ) 1 D d D + 0.12 3 s p P ) 3 P d D
28 19 3 s p D ) 1 D d D / s p P ) 3 P d P + 0.15 3 s p P ) 3 P d D
28 20 3 s p D ) 1 D d G / s p P ) 3 P d F + 0.10 3 s p D ) 1 D d F
28 21 3 s p D ) 1 D d G / s p P ) 3 P d F
28 22 3 s p P ) 3 P d F / s p D ) 1 D d F + 0.04 3 s p D ) 1 D d D
28 23 3 s p D ) 1 D d F / s p P ) 3 P d F + 0.04 3 s p D ) 1 D d D
28 24 3 s p D ) 1 D d F / s p P ) 3 P d F
28 25 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.02 3 s p P ) 3 P d F
28 26 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.03 3 s p P ) 3 P d F
28 27 3 s p D ) 1 D d S / s S p S + 0.03 3 s S p P ) 2 P d P ) 2 S
28 28 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.04 3 s p P ) 3 P d D
28 29 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.08 3 s p S ) 1 S d D
28 30 3 s p P ) 3 P d P / s p D ) 1 D d P
28 31 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.13 3 s p S ) 1 S d D
28 32 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
28 33 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
28 34 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
28 35 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
28 36 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.03 3 s S p P d D ◦
28 37 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.03 3 s S p P d D ◦
28 38 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.03 3 s S p P d D ◦
28 39 3 s S p P d D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.06 3 s p P ) 2 P d F ) 4 D ◦
28 40 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.07 3 s p D ) 2 D d P ) 4 D ◦
28 41 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
28 42 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
28 43 3 s S p P d F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.06 3 s p P ) 2 P d G ) 2 F ◦
28 44 3 s S p P d D ◦ / s S p P d F ◦ + 0.05 3 s p D ) 2 D d G ) 2 D ◦
28 45 3 s S p P d D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.05 3 s S p P d P ◦
28 46 3 s S p P d F ◦ / s S p P d D ◦ + 0.05 3 s p D ) 2 D d G ) 2 F ◦
28 47 3 s S p P d P ◦ / s S p P d P ◦ + 0.16 3 s p D ) 2 D d D ) 2 P ◦
28 48 3 s S p P d P ◦ / s S p P d P ◦ + 0.15 3 s p D ) 2 D d D ) 2 P ◦
28 49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
28 56 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.06 3 s p D ) 2 D d G ) 2 F ◦
28 57 3 s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.02 3 s p P ) 2 P d P ) 4 D ◦
28 60 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
28 61 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
28 62 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.13 3 s p D ) 2 D d F ) 4 P ◦
28 63 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.12 3 s p D ) 2 D d F ) 4 D ◦
28 64 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
28 65 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.08 3 s p D ) 2 D d P ) 4 F ◦
28 66 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.13 3 s p S ) 4 S d D ) 4 D ◦
28 67 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
28 68 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.21 3 s p S ) 4 S d P ) 4 P ◦
28 69 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.05 3 s p D ) 2 D d P ) 4 F ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition28 70 3 s p D ) 2 D d F ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.15 3 s p D ) 2 D d P ) 4 P ◦
28 71 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.03 3 s p D ) 2 D d P ) 4 F ◦
28 72 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.25 3 s p S ) 4 S d P ) 4 P ◦
28 73 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.12 3 s p S ) 4 S d F ) 4 F ◦
28 74 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
28 75 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.11 3 s p P ) 2 P d F ) 4 F ◦
28 76 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.11 3 s p P ) 2 P d F ) 4 F ◦
28 77 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.04 3 s p D ) 2 D d D ) 2 F ◦
28 78 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.02 3 s p S ) 4 S d G ) 4 G ◦
28 79 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦
28 80 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 H ◦
28 81 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.06 3 s S p P d P ◦
28 82 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.05 3 s p D ) 2 D d F ) 2 D ◦
28 83 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.20 3 s p D ) 2 D d F ) 2 D ◦
28 85 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.07 3 s p D ) 2 D d G ) 2 F ◦
28 86 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.11 3 s p P ) 2 P d G ) 2 H ◦
28 87 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.10 3 s p P ) 2 P d F ) 4 G ◦
28 88 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.09 3 s p P ) 2 P d F ) 4 G ◦
28 89 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.07 3 s p D ) 2 D d D ) 2 F ◦
28 90 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.08 3 s p D ) 2 D d D ) 2 G ◦
28 91 3 s p P ) 2 P d F ) 4 G ◦ / s p D ) 2 D d D ) 2 G ◦ + 0.14 3 s p S ) 4 S d G ) 4 G ◦
28 92 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.05 3 s p D ) 2 D d D ) 2 F ◦
28 93 3 s p D ) 2 D d D ) 2 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.08 3 s p D ) 2 D d F ) 2 G ◦
28 94 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.12 3 s p D ) 2 D d G ) 2 H ◦
28 95 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.06 3 s S p P d F ◦
28 96 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.06 3 s S p P d F ◦
28 97 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
28 98 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.06 3 s S p P d F ◦
28 99 3 s p S ) 4 S d P ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.16 3 s p D ) 2 D d D ) 2 P ◦
28 100 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.17 3 s p D ) 2 D d F ) 4 D ◦
28 101 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d G ) 2 H ◦ + 0.03 3 s p D ) 2 D d G ) 2 H ◦
28 102 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.08 3 s p D ) 2 D d F ) 4 D ◦
28 103 3 s p P ) 2 P d P ) 2 S ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.11 3 s p S ) 4 S d P ) 2 P ◦
28 104 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d P ) 2 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.16 3 s p P ) 2 P d P ) 4 D ◦
28 106 3 s p P ) 2 P d F ) 4 F ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.10 3 s p D ) 2 D d P ) 2 D ◦
28 107 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.09 3 s p P ) 2 P d F ) 2 F ◦
28 108 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.09 3 s p P ) 2 P d F ) 4 F ◦
28 109 3 s p D ) 2 D d G ) 2 D ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.11 3 s p P ) 2 P d F ) 4 D ◦
28 110 3 s p S ) 4 S d S ) 4 S ◦ / s p P ) 2 P d P ) 4 S ◦ + 0.08 3 s p D ) 2 D d P ) 4 F ◦
28 111 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.09 3 s p D ) 2 D d P ) 2 D ◦
28 112 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.11 3 s p P ) 2 P d F ) 4 D ◦
28 113 3 s p D ) 2 D d D ) 2 P ◦ / s p S ) 4 S d P ) 2 P ◦ + 0.17 3 s p P ) 2 P d P ) 2 S ◦
28 114 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.12 3 s p D ) 2 D d F ) 2 G ◦
28 115 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 2 G ◦
28 116 3 s p P ) 2 P d D ) 2 F ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.14 3 s p P ) 2 P d G ) 2 G ◦
28 117 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 F ◦
28 118 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.19 3 s p D ) 2 D d P ) 4 D ◦
28 119 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.17 3 s p D ) 2 D d P ) 4 D ◦
28 120 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦
28 121 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.21 3 s p P ) 2 P d F ) 4 F ◦
28 122 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.24 3 s p P ) 2 P d F ) 4 G ◦
28 123 3 s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦
28 124 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.18 3 s p P ) 2 P d F ) 4 G ◦
28 125 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition28 126 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.10 3 s S p P d P ◦
28 127 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d F ) 4 G ◦
28 128 3 s p D ) 2 D d F ) 4 D ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.12 3 s p D ) 2 D d F ) 4 G ◦
28 129 3 s S p D ) 3 D d H ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.15 3 s p D ) 2 D d F ) 4 G ◦
28 130 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.15 3 s p D ) 2 D d F ) 4 G ◦
28 131 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.16 3 s p P ) 2 P d D ) 2 P ◦
28 132 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.10 3 s p S ) 4 S d P ) 4 P ◦
28 133 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.11 3 s p S ) 4 S d P ) 4 P ◦
28 134 3 s p D ) 2 D d G ) 2 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.05 3 s p D ) 2 D d F ) 4 G ◦
28 135 3 s p P ) 2 P d D ) 2 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.10 3 s p P ) 2 P d P ) 4 P ◦
28 136 3 s p P ) 2 P d F ) 2 F ◦ / s p D ) 2 D d G ) 2 G ◦ + 0.08 3 s p D ) 2 D d F ) 4 D ◦
28 137 3 s p D ) 2 D d G ) 2 G ◦ / s S p P d F ◦ + 0.08 3 s p D ) 2 D d D ) 2 F ◦
28 138 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d F ) 2 P ◦
28 139 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.05 3 s p S ) 4 S d G ) 4 G ◦
28 140 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.03 3 s p D ) 2 D d G ) 2 G ◦
28 141 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.15 3 s p P ) 2 P d F ) 4 D ◦
28 142 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.12 3 s p P ) 2 P d D ) 2 D ◦
28 143 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.14 3 s p P ) 2 P d G ) 2 H ◦
28 144 3 s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.15 3 s p D ) 2 D d F ) 4 D ◦
28 145 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.17 3 s p P ) 2 P d F ) 4 D ◦
28 146 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d F ) 4 D ◦
28 147 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.09 3 s p P ) 2 P d P ) 2 D ◦
28 148 3 s p D ) 2 D d G ) 2 F ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.19 3 s p P ) 2 P d P ) 4 D ◦
28 149 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.23 3 s p P ) 2 P d G ) 2 H ◦
28 150 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.15 3 s p S ) 4 S d D ) 4 D ◦
28 151 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 F ◦
28 152 3 s p P ) 2 P d F ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.10 3 s p D ) 2 D d D ) 2 F ◦
28 153 3 s S p P ) 1 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.19 3 s p S ) 4 S d D ) 4 D ◦
28 154 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.23 3 s p S ) 4 S d D ) 4 D ◦
28 155 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.14 3 s p P ) 2 P d F ) 2 F ◦
28 156 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.14 3 s p D ) 2 D d F ) 4 F ◦
28 157 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.09 3 s p D ) 2 D d G ) 2 D ◦
28 158 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.10 3 s p P ) 2 P d F ) 4 F ◦
28 159 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.11 3 s p D ) 2 D d F ) 4 F ◦
28 160 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.08 3 s p P ) 2 P d F ) 2 G ◦
28 161 3 s p D ) 2 D d P ) 2 P ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.17 3 s p S ) 4 S d P ) 2 P ◦
28 162 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.10 3 s p D ) 2 D d F ) 4 F ◦
28 163 3 s p D ) 2 D d G ) 2 D ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.12 3 s p S ) 4 S d P ) 2 P ◦
28 164 3 s p D ) 2 D d D ) 2 S ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.10 3 s p S ) 4 S d P ) 4 P ◦
28 165 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.07 3 s p D ) 2 D d G ) 2 G ◦
28 166 3 s p D ) 2 D d D ) 2 D ◦ / s p P ) 2 P d S ) 2 P ◦ + 0.11 3 s p D ) 2 D d F ) 2 D ◦
28 167 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d G ) 2 F ◦ + 0.10 3 s p P ) 2 P d D ) 2 F ◦
28 168 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.11 3 s p D ) 2 D d D ) 2 P ◦
28 169 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.10 3 s p P ) 2 P d P ) 4 S ◦
28 170 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.12 3 s p P ) 2 P d D ) 2 F ◦
28 171 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.09 3 s p D ) 2 D d D ) 2 D ◦
28 172 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.12 3 s p P ) 2 P d G ) 2 F ◦
28 173 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.06 3 s p D ) 2 D d D ) 2 S ◦
28 174 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.09 3 s p D ) 2 D d G ) 2 D ◦
28 175 3 s p P ) 2 P d S ) 2 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.10 3 s p D ) 2 D d D ) 2 P ◦
28 176 3 s p P ) 2 P d P ) 4 S ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.06 3 s p S ) 4 S d P ) 4 P ◦
28 177 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.11 3 s p P ) 2 P d F ) 2 F ◦
28 178 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d F ) 2 D ◦ + 0.13 3 s p P ) 2 P d P ) 2 D ◦
28 179 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.12 3 s p P ) 2 P d F ) 2 D ◦
28 180 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦
28 181 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition28 182 3 s S p P ) 4 P d P ) 6 S / s p P ) 3 P d P ) 6 S
28 183 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
28 184 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
28 185 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.06 3 s p P ) 3 P d F ) 6 D
28 186 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.05 3 s S p P ) 4 P d F ) 6 F
28 187 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.10 3 s S p P ) 4 P d F ) 6 F
28 188 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.14 3 s S p P ) 4 P d F ) 6 F
28 189 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.12 3 s S p P ) 4 P d F ) 6 F
28 190 3 s p D ) 2 D d F ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.15 3 s p D ) 2 D d G ) 2 D ◦
28 191 3 s p D ) 2 D d F ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.16 3 s p P ) 2 P d P ) 2 D ◦
28 192 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.04 3 s S p P ) 4 P d F ) 6 G
29 1 3 s p P ◦ / s p P ◦ / s S p S / s p D ) 1 D d S
29 4 3 s p P ) 3 P d D / s p P ) 3 P d F
29 5 3 s p P ) 3 P d D / s p P ) 3 P d F
29 6 3 s p P ) 3 P d D / s p P ) 3 P d P + 0.02 3 s p D ) 1 D d D
29 7 3 s p P ) 3 P d D / s p D ) 1 D d P + 0.03 3 s p P ) 3 P d P
29 8 3 s p P ) 3 P d F / s p D ) 1 D d G
29 9 3 s p D ) 1 D d P / s p P ) 3 P d P + 0.09 3 s p P ) 3 P d D
29 10 3 s p P ) 3 P d F / s p P ) 3 P d F + 0.10 3 s p D ) 1 D d G
29 11 3 s p P ) 3 P d F / s p D ) 1 D d P + 0.13 3 s p P ) 3 P d P
29 12 3 s p P ) 3 P d F / s p D ) 1 D d P / s p P ) 3 P d F + 0.18 3 s p P ) 3 P d P
29 14 3 s p P ) 3 P d P / s p D ) 1 D d D / s p P ) 3 P d F + 0.18 3 s p P ) 3 P d D
29 16 3 s p P ) 3 P d F / s p D ) 1 D d G + 0.18 3 s p P ) 3 P d F
29 17 3 s p P ) 3 P d P / s p P ) 3 P d P + 0.12 3 s p D ) 1 D d P
29 18 3 s p P ) 3 P d P / s p D ) 1 D d D + 0.12 3 s p P ) 3 P d D
29 19 3 s p D ) 1 D d D / s p P ) 3 P d P + 0.15 3 s p P ) 3 P d D
29 20 3 s p D ) 1 D d G / s p P ) 3 P d F + 0.11 3 s p D ) 1 D d F
29 21 3 s p D ) 1 D d G / s p P ) 3 P d F
29 22 3 s p P ) 3 P d F / s p D ) 1 D d F + 0.05 3 s p D ) 1 D d D
29 23 3 s p D ) 1 D d F / s p P ) 3 P d F + 0.06 3 s p D ) 1 D d D
29 24 3 s p D ) 1 D d F / s p P ) 3 P d F
29 25 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.03 3 s p P ) 3 P d F
29 26 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.04 3 s p P ) 3 P d F
29 27 3 s p D ) 1 D d S / s S p S + 0.03 3 s S p P ) 2 P d P ) 2 S
29 28 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.05 3 s p P ) 3 P d D
29 29 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.08 3 s p S ) 1 S d D
29 30 3 s p P ) 3 P d P / s p D ) 1 D d P
29 31 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.14 3 s p S ) 1 S d D
29 32 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
29 33 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
29 34 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
29 35 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
29 36 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.03 3 s S p P d D ◦
29 37 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.04 3 s S p P d D ◦
29 38 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.04 3 s S p P d D ◦
29 39 3 s S p P d D ◦ / s S p P d F ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
29 40 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
29 41 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
29 42 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
29 43 3 s S p P d F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.06 3 s S p P d D ◦
29 44 3 s S p P d D ◦ / s S p P d F ◦ + 0.05 3 s p D ) 2 D d G ) 2 D ◦
29 45 3 s S p P d D ◦ / s S p P d P ◦ + 0.06 3 s p D ) 2 D d G ) 2 D ◦
29 46 3 s S p P d F ◦ / s S p P d D ◦ + 0.04 3 s p D ) 2 D d G ) 2 F ◦
29 47 3 s S p P d P ◦ / s S p P d P ◦ + 0.15 3 s p D ) 2 D d D ) 2 P ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition29 48 3 s S p P d P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d D ) 2 P ◦
29 49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p P ) 2 P d F ) 4 G ◦
29 55 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
29 56 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.06 3 s p D ) 2 D d G ) 2 F ◦
29 57 3 s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.03 3 s p P ) 2 P d P ) 4 D ◦
29 60 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
29 61 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
29 62 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.12 3 s p D ) 2 D d F ) 4 P ◦
29 63 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.11 3 s p S ) 4 S d F ) 4 F ◦
29 64 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.11 3 s p D ) 2 D d F ) 4 G ◦
29 65 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.06 3 s p S ) 4 S d P ) 6 P ◦
29 66 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.11 3 s p S ) 4 S d G ) 4 G ◦
29 67 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.18 3 s p S ) 4 S d P ) 4 P ◦
29 68 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
29 69 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p D ) 2 D d P ) 4 F ◦
29 70 3 s p D ) 2 D d F ) 4 D ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.18 3 s p D ) 2 D d P ) 4 P ◦
29 71 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.03 3 s p D ) 2 D d P ) 4 F ◦
29 72 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.21 3 s p S ) 4 S d P ) 4 P ◦
29 73 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.16 3 s p D ) 2 D d P ) 4 P ◦
29 74 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
29 75 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.11 3 s p D ) 2 D d F ) 4 G ◦
29 76 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.09 3 s p P ) 2 P d F ) 4 F ◦
29 77 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.04 3 s p D ) 2 D d D ) 2 F ◦
29 78 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.06 3 s p D ) 2 D d P ) 4 F ◦
29 79 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.02 3 s p D ) 2 D d F ) 2 H ◦
29 80 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 H ◦
29 81 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.06 3 s S p P d P ◦
29 82 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.04 3 s p D ) 2 D d F ) 2 D ◦
29 83 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.19 3 s p D ) 2 D d F ) 2 D ◦
29 85 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.07 3 s p P ) 2 P d F ) 4 G ◦
29 86 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.11 3 s p P ) 2 P d G ) 2 H ◦
29 87 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.12 3 s p D ) 2 D d F ) 4 H ◦
29 88 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.14 3 s p P ) 2 P d F ) 4 G ◦
29 89 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.10 3 s p D ) 2 D d D ) 2 G ◦
29 90 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.10 3 s p D ) 2 D d D ) 2 F ◦
29 91 3 s p P ) 2 P d F ) 4 G ◦ / s p D ) 2 D d D ) 2 G ◦ + 0.11 3 s p S ) 4 S d G ) 4 G ◦
29 92 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.06 3 s p D ) 2 D d D ) 2 F ◦
29 93 3 s p D ) 2 D d D ) 2 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.07 3 s p D ) 2 D d F ) 2 G ◦
29 94 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.06 3 s S p P d F ◦
29 95 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s p P ) 2 P d F ) 4 G ◦
29 96 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
29 97 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.12 3 s p D ) 2 D d G ) 2 H ◦
29 98 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.08 3 s p P ) 2 P d F ) 4 G ◦
29 99 3 s p S ) 4 S d P ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.15 3 s p D ) 2 D d D ) 2 P ◦
29 100 3 s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.17 3 s p P ) 2 P d P ) 4 D ◦
29 101 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d G ) 2 H ◦ + 0.04 3 s p D ) 2 D d G ) 2 H ◦
29 102 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.08 3 s p P ) 2 P d F ) 4 F ◦
29 103 3 s p P ) 2 P d P ) 2 S ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.11 3 s p S ) 4 S d P ) 2 P ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition29 104 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 F ◦
29 106 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 F ◦
29 107 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.11 3 s p P ) 2 P d F ) 4 F ◦
29 108 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.10 3 s p P ) 2 P d F ) 2 F ◦
29 109 3 s p D ) 2 D d G ) 2 D ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.10 3 s p P ) 2 P d D ) 2 D ◦
29 110 3 s p S ) 4 S d S ) 4 S ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.15 3 s p P ) 2 P d P ) 4 S ◦
29 111 3 s p D ) 2 D d D ) 2 P ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.12 3 s p P ) 2 P d P ) 4 S ◦
29 112 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 4 D ◦
29 113 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.14 3 s p D ) 2 D d F ) 2 G ◦
29 114 3 s p D ) 2 D d D ) 2 P ◦ / s p S ) 4 S d P ) 2 P ◦ + 0.15 3 s p P ) 2 P d P ) 2 S ◦
29 115 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.13 3 s p P ) 2 P d F ) 2 G ◦
29 116 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.14 3 s p P ) 2 P d G ) 2 G ◦
29 117 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.15 3 s p P ) 2 P d D ) 2 F ◦
29 118 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.19 3 s p D ) 2 D d F ) 4 D ◦
29 119 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.18 3 s p D ) 2 D d P ) 4 D ◦
29 120 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦
29 121 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.14 3 s p D ) 2 D d F ) 2 G ◦
29 122 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.24 3 s p D ) 2 D d F ) 4 G ◦
29 123 3 s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦
29 124 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d G ) 2 G ◦ + 0.13 3 s p D ) 2 D d G ) 2 G ◦
29 125 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.11 3 s S p P d P ◦
29 126 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.11 3 s p D ) 2 D d F ) 4 P ◦
29 127 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.17 3 s p D ) 2 D d F ) 4 G ◦
29 128 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.18 3 s p P ) 2 P d F ) 4 G ◦
29 129 3 s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.10 3 s p D ) 2 D d F ) 4 D ◦
29 130 3 s p D ) 2 D d F ) 4 D ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.10 3 s p P ) 2 P d F ) 4 G ◦
29 131 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.22 3 s p P ) 2 P d D ) 2 P ◦
29 132 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.12 3 s p P ) 2 P d P ) 4 P ◦
29 133 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.10 3 s p S ) 4 S d P ) 4 P ◦
29 134 3 s p D ) 2 D d G ) 2 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p D ) 2 D d F ) 4 G ◦
29 135 3 s p P ) 2 P d D ) 2 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.15 3 s p P ) 2 P d P ) 4 P ◦
29 136 3 s p D ) 2 D d G ) 2 G ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p P ) 2 P d D ) 2 F ◦
29 137 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d F ) 2 P ◦
29 138 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d G ) 2 G ◦ + 0.11 3 s S p P d F ◦
29 139 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.06 3 s p D ) 2 D d F ) 2 H ◦
29 140 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.04 3 s p D ) 2 D d G ) 2 H ◦
29 141 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.13 3 s p D ) 2 D d F ) 4 D ◦
29 142 3 s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.11 3 s p P ) 2 P d D ) 2 D ◦
29 143 3 s p D ) 2 D d G ) 2 H ◦ / s p P ) 2 P d G ) 2 H ◦ + 0.14 3 s p D ) 2 D d F ) 2 H ◦
29 144 3 s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.09 3 s p P ) 2 P d D ) 2 D ◦
29 145 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.20 3 s p P ) 2 P d F ) 4 D ◦
29 146 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.14 3 s p P ) 2 P d F ) 4 D ◦
29 147 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.09 3 s p P ) 2 P d P ) 2 D ◦
29 148 3 s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.20 3 s p P ) 2 P d P ) 4 D ◦
29 149 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.12 3 s p S ) 4 S d D ) 4 D ◦
29 150 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 F ◦
29 151 3 s p D ) 2 D d F ) 2 H ◦ / s p P ) 2 P d G ) 2 H ◦ + 0.23 3 s p D ) 2 D d G ) 2 H ◦
29 152 3 s p D ) 2 D d G ) 2 F ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.10 3 s p S ) 4 S d D ) 4 D ◦
29 153 3 s p D ) 2 D d G ) 2 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.19 3 s p D ) 2 D d P ) 4 D ◦
29 154 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.23 3 s p S ) 4 S d D ) 4 D ◦
29 155 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.13 3 s p P ) 2 P d F ) 2 F ◦
29 156 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.13 3 s p D ) 2 D d F ) 4 F ◦
29 157 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.07 3 s p D ) 2 D d G ) 2 D ◦
29 158 3 s p D ) 2 D d P ) 2 D ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.10 3 s p S ) 4 S d F ) 4 F ◦
29 159 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.08 3 s p D ) 2 D d F ) 4 F ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition29 160 3 s p D ) 2 D d P ) 2 P ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.17 3 s p S ) 4 S d P ) 2 P ◦
29 161 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.08 3 s p P ) 2 P d F ) 2 G ◦
29 162 3 s p P ) 2 P d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.12 3 s p D ) 2 D d P ) 2 P ◦
29 163 3 s p S ) 4 S d F ) 4 F ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.14 3 s p D ) 2 D d P ) 2 D ◦
29 164 3 s p D ) 2 D d D ) 2 S ◦ / s p P ) 2 P d P ) 2 S ◦ + 0.14 3 s p S ) 4 S d P ) 4 P ◦
29 165 3 s p D ) 2 D d D ) 2 D ◦ / s p P ) 2 P d S ) 2 P ◦ + 0.12 3 s p D ) 2 D d F ) 2 D ◦
29 166 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d G ) 2 F ◦ + 0.09 3 s p P ) 2 P d D ) 2 F ◦
29 167 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.07 3 s p D ) 2 D d G ) 2 G ◦
29 168 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.11 3 s p P ) 2 P d P ) 4 S ◦
29 169 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.10 3 s p D ) 2 D d D ) 2 P ◦
29 170 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.10 3 s p P ) 2 P d D ) 2 F ◦
29 171 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.12 3 s p S ) 4 S d F ) 2 F ◦
29 172 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.12 3 s p P ) 2 P d G ) 2 F ◦
29 173 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.08 3 s p P ) 2 P d P ) 2 S ◦
29 174 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.10 3 s p D ) 2 D d G ) 2 D ◦
29 175 3 s p P ) 2 P d S ) 2 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.10 3 s p S ) 4 S d P ) 2 P ◦
29 176 3 s p P ) 2 P d P ) 4 S ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.05 3 s p P ) 2 P d P ) 2 P ◦
29 177 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d G ) 2 F ◦ + 0.09 3 s p P ) 2 P d F ) 2 F ◦
29 178 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d F ) 2 D ◦ + 0.13 3 s p P ) 2 P d P ) 2 D ◦
29 179 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.11 3 s p P ) 2 P d F ) 2 D ◦
29 180 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.10 3 s p D ) 2 D d D ) 2 G ◦
29 181 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.11 3 s p D ) 2 D d D ) 2 G ◦
29 182 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
29 183 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.13 3 s p D ) 2 D d D ) 2 F ◦
29 184 3 s S p P ) 4 P d P ) 6 S / s p P ) 3 P d P ) 6 S
29 185 3 s p D ) 2 D d F ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.15 3 s p D ) 2 D d G ) 2 D ◦
29 186 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.05 3 s p P ) 3 P d F ) 6 D
29 187 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.07 3 s S p P ) 4 P d F ) 6 F
29 188 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.12 3 s S p P ) 4 P d F ) 6 F
29 189 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.16 3 s S p P ) 4 P d F ) 6 F
29 190 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.15 3 s S p P ) 4 P d F ) 6 F
29 191 3 s p D ) 2 D d F ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.16 3 s p P ) 2 P d P ) 2 D ◦
29 192 3 s p D ) 2 D d F ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.13 3 s S p P d P ◦
29 193 3 s p D ) 2 D d F ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.11 3 s S p P d P ◦
29 194 3 s S p P ) 4 P d F ) 6 F / s p P ) 3 P d F ) 6 F + 0.05 3 s S p P ) 4 P d F ) 6 G
30 1 3 s p P ◦ / s p P ◦ / s S p S / s p D ) 1 D d S
30 4 3 s p P ) 3 P d D / s p P ) 3 P d F + 0.02 3 s p D ) 1 D d D
30 5 3 s p P ) 3 P d D / s p P ) 3 P d F
30 6 3 s p P ) 3 P d D / s p P ) 3 P d P + 0.03 3 s p D ) 1 D d D
30 7 3 s p P ) 3 P d D / s p D ) 1 D d P + 0.04 3 s p P ) 3 P d P
30 8 3 s p P ) 3 P d F / s p D ) 1 D d G
30 9 3 s p D ) 1 D d P / s p P ) 3 P d P + 0.11 3 s p P ) 3 P d D
30 10 3 s p P ) 3 P d F / s p P ) 3 P d F + 0.13 3 s p D ) 1 D d G
30 11 3 s p D ) 1 D d D / s p P ) 3 P d F + 0.15 3 s p P ) 3 P d P
30 12 3 s p P ) 3 P d F / s p P ) 3 P d D + 0.02 3 s p S ) 1 S d D
30 13 3 s p D ) 1 D d P / s p P ) 3 P d P + 0.17 3 s p P ) 3 P d F
30 14 3 s p P ) 3 P d P / s p P ) 3 P d P
30 15 3 s p P ) 3 P d F / s p D ) 1 D d D + 0.15 3 s p P ) 3 P d D
30 16 3 s p P ) 3 P d F / s p P ) 3 P d F + 0.23 3 s p D ) 1 D d G
30 17 3 s p P ) 3 P d P / s p P ) 3 P d D + 0.11 3 s p S ) 1 S d D
30 18 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.13 3 s p P ) 3 P d P
30 19 3 s p D ) 1 D d D / s p P ) 3 P d P + 0.16 3 s p P ) 3 P d D
30 20 3 s p D ) 1 D d G / s p P ) 3 P d F + 0.11 3 s p D ) 1 D d F
30 21 3 s p D ) 1 D d G / s p P ) 3 P d F
30 22 3 s p P ) 3 P d F / s p D ) 1 D d F + 0.05 3 s p D ) 1 D d D
30 23 3 s p D ) 1 D d F / s p P ) 3 P d F + 0.07 3 s p D ) 1 D d D Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition30 24 3 s p D ) 1 D d F / s p P ) 3 P d F
30 25 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.04 3 s p P ) 3 P d F
30 26 3 s p S ) 1 S d D / s p D ) 1 D d D + 0.05 3 s p P ) 3 P d F
30 27 3 s p D ) 1 D d S / s S p S + 0.02 3 s S p P ) 2 P d P ) 2 S
30 28 3 s p P ) 3 P d P / s p D ) 1 D d P + 0.06 3 s p D ) 1 D d D
30 29 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.07 3 s p S ) 1 S d D
30 30 3 s p P ) 3 P d P / s p D ) 1 D d P
30 31 3 s p P ) 3 P d D / s p D ) 1 D d D + 0.14 3 s p S ) 1 S d D
30 32 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
30 33 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
30 34 3 s S p P d P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.04 3 s p P ) 2 P d P ) 4 P ◦
30 35 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦
30 36 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.04 3 s S p P d D ◦
30 37 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.05 3 s S p P d D ◦
30 38 3 s S p P d F ◦ / s p D ) 2 D d F ) 4 F ◦ + 0.05 3 s S p P d D ◦
30 39 3 s S p P d D ◦ / s S p P d F ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
30 40 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
30 41 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s S p P d D ◦
30 42 3 s S p P d D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.06 3 s p D ) 2 D d P ) 4 D ◦
30 43 3 s S p P d F ◦ / s S p P d D ◦ + 0.09 3 s p D ) 2 D d G ) 2 F ◦
30 44 3 s S p P d D ◦ / s S p P d F ◦ + 0.05 3 s p D ) 2 D d G ) 2 D ◦
30 45 3 s S p P d D ◦ / s S p P d P ◦ + 0.06 3 s p D ) 2 D d G ) 2 D ◦
30 46 3 s S p P d F ◦ / s S p P d D ◦ + 0.04 3 s p D ) 2 D d G ) 2 F ◦
30 47 3 s S p P d P ◦ / s S p P d P ◦ + 0.15 3 s p D ) 2 D d D ) 2 P ◦
30 48 3 s S p P d P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d D ) 2 P ◦
30 49 3 s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p S ) 4 S d F ) 6 F ◦ / s p P ) 2 P d F ) 4 G ◦
30 55 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.08 3 s p D ) 2 D d G ) 2 F ◦
30 56 3 s S p P d F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.06 3 s p D ) 2 D d G ) 2 F ◦
30 57 3 s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d P ) 6 P ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.03 3 s p P ) 2 P d P ) 4 D ◦
30 60 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.09 3 s p D ) 2 D d D ) 2 D ◦
30 61 3 s S p P d D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.08 3 s p D ) 2 D d D ) 2 D ◦
30 62 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.12 3 s p P ) 2 P d F ) 4 F ◦
30 63 3 s p D ) 2 D d P ) 4 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.12 3 s p D ) 2 D d F ) 4 P ◦
30 64 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.12 3 s p D ) 2 D d P ) 4 F ◦
30 65 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.08 3 s p S ) 4 S d P ) 6 P ◦
30 66 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d D ) 4 D ◦ + 0.11 3 s p D ) 2 D d F ) 4 D ◦
30 67 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.06 3 s p D ) 2 D d P ) 4 F ◦
30 68 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.16 3 s p S ) 4 S d P ) 4 P ◦
30 69 3 s p S ) 4 S d D ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.05 3 s p D ) 2 D d P ) 4 D ◦
30 70 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.18 3 s p S ) 4 S d D ) 4 D ◦
30 71 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.03 3 s p P ) 2 P d F ) 4 G ◦
30 72 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.18 3 s p S ) 4 S d P ) 4 P ◦
30 73 3 s p D ) 2 D d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦
30 74 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.16 3 s p D ) 2 D d P ) 4 F ◦
30 75 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.10 3 s p D ) 2 D d F ) 4 G ◦
30 76 3 s p D ) 2 D d P ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.14 3 s p D ) 2 D d F ) 4 H ◦
30 77 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.04 3 s p D ) 2 D d P ) 4 F ◦
30 78 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.09 3 s p P ) 2 P d F ) 4 G ◦
30 79 3 s p D ) 2 D d F ) 4 H ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.03 3 s p D ) 2 D d F ) 2 H ◦ Table 3 continued Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition30 80 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.17 3 s p D ) 2 D d F ) 4 H ◦
30 81 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.06 3 s S p P d P ◦
30 82 3 s S p P d P ◦ / s p D ) 2 D d F ) 2 P ◦ + 0.06 3 s p D ) 2 D d F ) 2 D ◦
30 83 3 s p D ) 2 D d F ) 2 D ◦ / s S p P d P ◦ + 0.19 3 s p D ) 2 D d D ) 2 D ◦
30 84 3 s p D ) 2 D d F ) 4 H ◦ / s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.11 3 s p P ) 2 P d G ) 2 H ◦
30 86 3 s p D ) 2 D d D ) 2 F ◦ / s p S ) 4 S d F ) 2 F ◦ + 0.09 3 s p P ) 2 P d F ) 4 G ◦
30 87 3 s p D ) 2 D d F ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.14 3 s p D ) 2 D d F ) 4 H ◦
30 88 3 s p P ) 2 P d P ) 2 D ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.19 3 s p D ) 2 D d F ) 2 D ◦
30 89 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.12 3 s p D ) 2 D d D ) 2 G ◦
30 90 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.12 3 s p D ) 2 D d D ) 2 F ◦
30 91 3 s p P ) 2 P d F ) 4 G ◦ / s p D ) 2 D d D ) 2 G ◦ + 0.09 3 s p S ) 4 S d G ) 4 G ◦
30 92 3 s p D ) 2 D d D ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.06 3 s p D ) 2 D d D ) 2 F ◦
30 93 3 s p D ) 2 D d D ) 2 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.07 3 s p D ) 2 D d F ) 4 H ◦
30 94 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.06 3 s S p P d F ◦
30 95 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.09 3 s p P ) 2 P d F ) 4 G ◦
30 96 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.07 3 s S p P d F ◦
30 97 3 s p P ) 2 P d F ) 4 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.12 3 s p D ) 2 D d G ) 2 H ◦
30 98 3 s p D ) 2 D d F ) 4 F ◦ / s p S ) 4 S d F ) 4 F ◦ + 0.10 3 s p P ) 2 P d F ) 4 G ◦
30 99 3 s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.15 3 s p P ) 2 P d P ) 4 D ◦
30 100 3 s p S ) 4 S d P ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.14 3 s p D ) 2 D d D ) 2 P ◦
30 101 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d G ) 2 H ◦ + 0.05 3 s p D ) 2 D d G ) 2 H ◦
30 102 3 s p P ) 2 P d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.09 3 s p P ) 2 P d F ) 4 F ◦
30 103 3 s p P ) 2 P d P ) 2 S ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.11 3 s p S ) 4 S d P ) 2 P ◦
30 104 3 s p D ) 2 D d G ) 2 I ◦ / s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.14 3 s p P ) 2 P d F ) 4 F ◦
30 106 3 s p D ) 2 D d D ) 2 P ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.13 3 s p D ) 2 D d P ) 4 F ◦
30 107 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.13 3 s p P ) 2 P d F ) 4 F ◦
30 108 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.10 3 s p P ) 2 P d F ) 2 F ◦
30 109 3 s p D ) 2 D d G ) 2 D ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.11 3 s p P ) 2 P d D ) 2 D ◦
30 110 3 s S p D ) 3 D d D ) 4 S ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.18 3 s p S ) 4 S d S ) 4 S ◦
30 111 3 s p S ) 4 S d S ) 4 S ◦ / s p P ) 2 P d P ) 4 S ◦ + 0.06 3 s p D ) 2 D d P ) 2 D ◦
30 112 3 s p D ) 2 D d P ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.14 3 s p P ) 2 P d F ) 4 D ◦
30 113 3 s p D ) 2 D d F ) 2 G ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.12 3 s p P ) 2 P d F ) 4 F ◦
30 114 3 s p D ) 2 D d D ) 2 P ◦ / s p S ) 4 S d P ) 2 P ◦ + 0.15 3 s S p P d P ◦
30 115 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 4 F ◦ + 0.13 3 s p P ) 2 P d G ) 2 G ◦
30 116 3 s p P ) 2 P d F ) 4 F ◦ / s p P ) 2 P d F ) 2 G ◦ + 0.13 3 s p P ) 2 P d G ) 2 G ◦
30 117 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.17 3 s p P ) 2 P d F ) 4 D ◦
30 118 3 s p P ) 2 P d P ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.16 3 s p D ) 2 D d F ) 4 D ◦
30 119 3 s p P ) 2 P d P ) 4 D ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.19 3 s p D ) 2 D d P ) 4 D ◦
30 120 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.09 3 s p P ) 2 P d P ) 4 D ◦
30 121 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.14 3 s p P ) 2 P d F ) 2 G ◦
30 122 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.23 3 s p D ) 2 D d F ) 4 G ◦
30 123 3 s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d P ) 4 P ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦
30 124 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.11 3 s S p P d P ◦
30 125 3 s p P ) 2 P d P ) 4 P ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.12 3 s p D ) 2 D d F ) 4 P ◦
30 126 3 s p D ) 2 D d F ) 2 G ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.23 3 s p P ) 2 P d G ) 2 G ◦
30 127 3 s p S ) 4 S d G ) 4 G ◦ / s p P ) 2 P d F ) 4 G ◦ + 0.19 3 s p D ) 2 D d F ) 4 G ◦
30 128 3 s p S ) 4 S d G ) 4 G ◦ / s p D ) 2 D d F ) 4 G ◦ + 0.23 3 s p P ) 2 P d F ) 4 G ◦
30 129 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.07 3 s p S ) 4 S d G ) 4 G ◦
30 130 3 s p P ) 2 P d F ) 2 F ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.09 3 s p D ) 2 D d F ) 4 D ◦
30 131 3 s p P ) 2 P d D ) 2 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.09 3 s p P ) 2 P d P ) 4 P ◦
30 132 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.16 3 s p P ) 2 P d P ) 4 P ◦
30 133 3 s p D ) 2 D d G ) 2 G ◦ / s p S ) 4 S d G ) 4 G ◦ + 0.07 3 s p D ) 2 D d F ) 4 G ◦
30 134 3 s p D ) 2 D d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.09 3 s p S ) 4 S d P ) 4 P ◦
30 135 3 s p D ) 2 D d G ) 2 G ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.04 3 s p P ) 2 P d D ) 2 F ◦ Table 3 continued Wang et al.
Table 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition30 136 3 p P d D ) 2 P ◦ / s p D ) 2 D d P ) 4 P ◦ + 0.23 3 s p P ) 2 P d D ) 2 P ◦
30 137 3 s p P ) 2 P d D ) 2 P ◦ / s S p P d P ◦ + 0.14 3 s p D ) 2 D d F ) 2 P ◦
30 138 3 s p P ) 2 P d D ) 2 F ◦ / s p D ) 2 D d G ) 2 G ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
30 139 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d G ) 2 H ◦ + 0.09 3 s p D ) 2 D d F ) 2 H ◦
30 140 3 s p P ) 2 P d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.09 3 s p D ) 2 D d G ) 2 H ◦
30 141 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.09 3 s p D ) 2 D d F ) 4 D ◦
30 142 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.11 3 s p D ) 2 D d D ) 2 D ◦
30 143 3 s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.09 3 s p P ) 2 P d D ) 2 D ◦
30 144 3 s p D ) 2 D d G ) 2 H ◦ / s p P ) 2 P d G ) 2 H ◦ + 0.08 3 s p D ) 2 D d F ) 2 H ◦
30 145 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d F ) 4 D ◦ + 0.21 3 s p D ) 2 D d P ) 4 D ◦
30 146 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d F ) 4 D ◦ + 0.14 3 s p P ) 2 P d F ) 4 D ◦
30 147 3 s p P ) 2 P d D ) 2 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.13 3 s p D ) 2 D d P ) 4 D ◦
30 148 3 s p P ) 2 P d F ) 4 D ◦ / s p D ) 2 D d P ) 4 D ◦ + 0.21 3 s p P ) 2 P d P ) 4 D ◦
30 149 3 s p D ) 2 D d P ) 4 D ◦ / s p D ) 2 D d S ) 2 D ◦ + 0.10 3 s p P ) 2 P d P ) 4 D ◦
30 150 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.16 3 s p D ) 2 D d F ) 4 F ◦
30 151 3 s p D ) 2 D d P ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.15 3 s p S ) 4 S d D ) 4 D ◦
30 152 3 s p P ) 2 P d G ) 2 F ◦ / s p D ) 2 D d D ) 2 F ◦ + 0.09 3 s p P ) 2 P d F ) 2 F ◦
30 153 3 s p D ) 2 D d G ) 2 H ◦ / s p D ) 2 D d F ) 2 H ◦ + 0.30 3 s p P ) 2 P d G ) 2 H ◦
30 154 3 s p D ) 2 D d F ) 4 D ◦ / s p P ) 2 P d P ) 4 D ◦ + 0.22 3 s p S ) 4 S d D ) 4 D ◦
30 155 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.12 3 s p D ) 2 D d F ) 4 F ◦
30 156 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.13 3 s p P ) 2 P d F ) 2 F ◦
30 157 3 s p D ) 2 D d G ) 2 D ◦ / s p D ) 2 D d P ) 2 D ◦ + 0.10 3 s p P ) 2 P d F ) 4 F ◦
30 158 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d D ) 2 D ◦ + 0.08 3 s p S ) 4 S d F ) 4 F ◦
30 159 3 s p D ) 2 D d D ) 2 S ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.16 3 s p S ) 4 S d P ) 2 P ◦
30 160 3 s p S ) 4 S d F ) 4 F ◦ / s p P ) 2 P d F ) 4 F ◦ + 0.10 3 s p D ) 2 D d P ) 2 D ◦
30 161 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.08 3 s p P ) 2 P d G ) 2 F ◦
30 162 3 s p P ) 2 P d F ) 4 F ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.13 3 s p S ) 4 S d F ) 4 F ◦
30 163 3 s p D ) 2 D d P ) 2 D ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.08 3 s p S ) 4 S d F ) 4 F ◦
30 164 3 s p D ) 2 D d F ) 4 P ◦ / s p D ) 2 D d D ) 2 S ◦ + 0.17 3 s p P ) 2 P d P ) 2 S ◦
30 165 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d G ) 2 F ◦ + 0.07 3 s p P ) 2 P d D ) 2 F ◦
30 166 3 s p D ) 2 D d D ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.10 3 s p P ) 2 P d S ) 2 P ◦
30 167 3 s p P ) 2 P d G ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.07 3 s p D ) 2 D d G ) 2 G ◦
30 168 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.13 3 s p P ) 2 P d P ) 4 S ◦
30 169 3 s p P ) 2 P d G ) 2 F ◦ / s p P ) 2 P d D ) 2 F ◦ + 0.12 3 s p D ) 2 D d P ) 2 F ◦
30 170 3 s p P ) 2 P d S ) 2 P ◦ / s p D ) 2 D d P ) 2 P ◦ + 0.09 3 s p D ) 2 D d D ) 2 P ◦
30 171 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.12 3 s p S ) 4 S d F ) 2 F ◦
30 172 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.11 3 s p P ) 2 P d G ) 2 F ◦
30 173 3 s p D ) 2 D d D ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.11 3 s p D ) 2 D d G ) 2 D ◦
30 174 3 s p S ) 4 S d P ) 4 P ◦ / s p D ) 2 D d F ) 4 P ◦ + 0.09 3 s p P ) 2 P d P ) 2 S ◦
30 175 3 s p P ) 2 P d S ) 2 P ◦ / s p S ) 4 S d P ) 4 P ◦ + 0.08 3 s p S ) 4 S d P ) 2 P ◦
30 176 3 s p P ) 2 P d P ) 4 S ◦ / s p S ) 4 S d S ) 4 S ◦ + 0.06 3 s p P ) 2 P d P ) 2 P ◦
30 177 3 s p D ) 2 D d G ) 2 F ◦ / s p P ) 2 P d G ) 2 F ◦ + 0.11 3 s p D ) 2 D d F ) 2 G ◦
30 178 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d P ) 2 D ◦ + 0.12 3 s p P ) 2 P d F ) 2 D ◦
30 179 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.15 3 s p P ) 2 P d G ) 2 F ◦
30 180 3 s p D ) 2 D d S ) 2 D ◦ / s p P ) 2 P d D ) 2 D ◦ + 0.10 3 s p P ) 2 P d F ) 2 D ◦
30 181 3 s p P ) 2 P d F ) 2 G ◦ / s p D ) 2 D d F ) 2 G ◦ + 0.10 3 s p D ) 2 D d D ) 2 G ◦
30 182 3 s p D ) 2 D d F ) 2 F ◦ / s p D ) 2 D d P ) 2 F ◦ + 0.14 3 s p D ) 2 D d D ) 2 F ◦
30 183 3 s p D ) 2 D d P ) 2 F ◦ / s p D ) 2 D d F ) 2 F ◦ + 0.13 3 s p D ) 2 D d D ) 2 F ◦
30 184 3 s S p P ) 4 P d P ) 6 S / s p P ) 3 P d P ) 6 S
30 185 3 s p P ) 2 P d P ) 2 D ◦ / s p D ) 2 D d F ) 2 D ◦ + 0.14 3 s p D ) 2 D d G ) 2 D ◦
30 186 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.05 3 s p P ) 3 P d F ) 6 D
30 187 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.08 3 s S p P ) 4 P d F ) 6 F
30 188 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.15 3 s S p P ) 4 P d F ) 6 F
30 189 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.20 3 s S p P ) 4 P d F ) 6 F
30 190 3 s p D ) 2 D d F ) 2 D ◦ / s p D ) 2 D d G ) 2 D ◦ + 0.15 3 s p P ) 2 P d P ) 2 D ◦
30 191 3 s S p P ) 4 P d F ) 6 D / s S p P ) 4 P d P ) 6 D + 0.18 3 s S p P ) 4 P d F ) 6 F Table 3 continued able 3 (continued) Z Key Level E MCDHF E NIST ∆
E τl
MCDHF τv MCDHF LS -composition30 192 3 s p D ) 2 D d F ) 2 P ◦ / s S p P d P ◦ + 0.13 3 s p P ) 2 P d D ) 2 P ◦
30 193 3 s p D ) 2 D d F ) 2 P ◦ / s p P ) 2 P d D ) 2 P ◦ + 0.11 3 s S p P d P ◦
30 194 3 s S p P ) 4 P d F ) 6 F / s S p P ) 4 P d F ) 6 G + 0.06 3 s p P ) 3 P d F ) 6 F Note — Table 3 is published in its entirety in the machine-readable format. The results for the levels, for which the NIST values are available, are shown here for guidanceregarding its form and content. Wang et al.
Table 4.
Transition wavelengths λ (in ˚A), transition rates A (in s − ), weighted oscillator strengths gf , and line strengths S (in a.u.) between the states of Cr VIII (Mn IX, Fe X, Co XI, Ni XII, Cu XIII,Zn XIV) listed in Table 3. E1 and E2 transition data are provided in both the length ( l ) and velocity( v ) form. Type specifies the nature of electric (E) or magnetic (M) multipole transition, BF is thebranching fraction from the upper level. The last column (Acc.) represents the estimated accuraciesof the S values using the NIST ASD terminology. Only transitions with BF ≥ − are presented. Z i j λ
Type BF
Al gfl Sl Av gfv Sv
Acc.26 1 2 6.3594E+03 M1 9.998E-01 6.984E+01 8.469E-07 1.332E+0026 1 2 6.3594E+03 E2 2.156E-04 1.506E-02 1.826E-10 2.798E-01 1.455E-02 1.764E-10 2.702E-01 D+26 1 3 3.4526E+02 E1 6.951E-01 3.023E+09 1.080E-01 1.228E-01 3.118E+09 1.114E-01 1.267E-01 B+26 1 4 2.5741E+02 M2 1.000E+00 5.777E+01 4.591E-09 3.503E+0126 1 5 2.5736E+02 E1 1.000E+00 6.011E+06 3.581E-04 3.034E-04 4.880E+06 2.908E-04 2.463E-04 C26 1 6 2.5655E+02 E1 9.980E-01 5.986E+06 2.363E-04 1.995E-04 6.120E+06 2.416E-04 2.040E-04 B26 1 7 2.5553E+02 E1 4.240E-01 3.598E+06 7.045E-05 5.926E-05 4.229E+06 8.279E-05 6.965E-05 C+26 1 9 2.3820E+02 E1 1.573E-01 3.496E+07 5.948E-04 4.664E-04 3.656E+07 6.220E-04 4.877E-04 B26 1 10 2.3661E+02 M2 2.060E-01 3.473E+00 2.332E-10 1.382E+0026 1 11 2.3441E+02 E1 1.000E+00 4.702E+07 2.324E-03 1.793E-03 4.594E+07 2.271E-03 1.752E-03 B+26 1 12 2.3367E+02 E1 6.148E-01 2.168E+08 7.097E-03 5.460E-03 2.133E+08 6.986E-03 5.374E-03 B+26 1 13 2.3351E+02 E1 9.868E-01 8.461E+07 2.767E-03 2.127E-03 8.602E+07 2.813E-03 2.162E-03 B+26 1 14 2.3011E+02 E1 6.951E-01 2.521E+08 8.006E-03 6.065E-03 2.404E+08 7.635E-03 5.784E-03 B+26 1 15 2.3005E+02 E1 8.702E-01 3.093E+08 4.907E-03 3.717E-03 3.161E+08 5.016E-03 3.799E-03 B+26 1 16 2.2747E+02 E1 2.348E-01 1.464E+06 4.542E-05 3.402E-05 1.360E+06 4.221E-05 3.161E-05 C+26 1 17 2.2687E+02 M2 1.850E-01 1.252E+01 7.730E-10 4.038E+0026 1 18 2.2636E+02 E1 1.000E+00 1.214E+08 5.595E-03 4.169E-03 1.174E+08 5.411E-03 4.032E-03 B+26 1 19 2.2521E+02 E1 1.000E+00 7.796E+07 3.557E-03 2.637E-03 7.608E+07 3.471E-03 2.574E-03 B+26 1 21 2.2170E+02 M2 1.395E-01 9.964E+00 5.874E-10 2.863E+0026 1 22 2.2025E+02 E1 1.000E+00 2.417E+07 1.055E-03 7.648E-04 2.346E+07 1.024E-03 7.423E-04 B26 1 23 2.0743E+02 E1 1.000E+00 1.759E+08 6.808E-03 4.649E-03 1.749E+08 6.771E-03 4.624E-03 B+26 1 24 2.0577E+02 M2 6.584E-03 1.326E+00 6.733E-11 2.624E-0126 1 25 1.9535E+02 E1 6.124E-01 6.640E+08 1.519E-02 9.772E-03 6.589E+08 1.508E-02 9.697E-03 B+26 1 26 1.9367E+02 E1 1.000E+00 1.560E+08 5.263E-03 3.356E-03 1.556E+08 5.250E-03 3.347E-03 B+26 1 27 1.8486E+02 E1 7.680E-01 1.223E+11 1.253E+00 7.628E-01 1.232E+11 1.262E+00 7.681E-01 A+26 1 28 1.7743E+02 E1 9.745E-01 1.445E+11 2.729E+00 1.594E+00 1.429E+11 2.698E+00 1.576E+00 A+26 1 29 1.7564E+02 E1 2.482E-01 3.592E+10 3.323E-01 1.921E-01 3.544E+10 3.278E-01 1.896E-01 A+26 1 30 1.7477E+02 E1 1.000E+00 1.780E+11 4.891E+00 2.814E+00 1.756E+11 4.826E+00 2.777E+00 A+26 1 31 1.7076E+02 E1 4.309E-02 7.541E+09 1.319E-01 7.413E-02 7.443E+09 1.301E-01 7.316E-02 A