A. S. Barabash
Kurchatov Institute
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Featured researches published by A. S. Barabash.
Physical Review Letters | 2005
R. Arnold; C. Augier; J. Baker; A. S. Barabash; G. Broudin; V. Brudanin; A. J. Caffrey; E. Caurier; V. Egorov; K. Errahmane; A.I. Etienvre; J.L. Guyonnet; F. Hubert; Ph. Hubert; C. Jollet; S. Jullian; O. Kochetov; V. Kovalenko; S. I. Konovalov; D. Lalanne; F. Leccia; C. Longuemare; G. Lutter; Ch. Marquet; F. Mauger; F. Nowacki; H. Ohsumi; F. Piquemal; J. L. Reyss; R. Saakyan
The NEMO 3 detector, which has been operating in the Frejus underground laboratory since February 2003, is devoted to the search for neutrinoless double beta decay (bb0nu). Half-lives of the two neutrino double beta decays (bb2nu) have been measured for 100Mo and 82Se. After 389 effective days of data collection from February 2003 until September 2004 (Phase I), no evidence for neutrinoless double beta decay was found from ~7kg of 100Mo and ~1 kg of 82Se. The corresponding lower limits for the half-lives are 4.6 x 10^23 years for 100Mo and 1.0 x10^23 years for 82Se (90% C.L.). Depending on the nuclear matrix elements calculation, limits for the effective Majorana neutrino mass are<0.7-2.8 eV for 100Mo and<1.7-4.9 eV for 82Se
Modern Physics Letters A | 2002
Frank T. Avignone; A. S. Barabash; F. Boehm; R. L. Brodzinski; J. I. Collar; P. J. Doe; H. Ejiri; Stephen R. Elliott; E. Fiorini; R.J. Gaitskell; G. Gratta; R. Hazama; K. Kazkaz; G. S. King; Richard T. Kouzes; Harry S. Miley; M. Moe; A. Morales; J. Morales; A. Piepke; R. G. H. Robertson; W. Tornow; P. G. Vogel; Ray A. Warner; J. F. Wilkerson
We comment on the recent claim for the experimental observation of neutrinoless double-beta decay. We discuss several limitations in the analysis provided in that paper and conclude that there is no basis for the presented claim.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2005
R. Arnold; C. Augier; A.M. Bakalyarov; J. Baker; A. S. Barabash; Ph. Bernaudin; M. Bouchel; V. Brudanin; A. J. Caffrey; J. Cailleret; J.E. Campagne; D. Dassie; V. Egorov; K. Errahmane; A.I. Etienvre; T. Filipova; J. Forget; A. Guiral; P. Guiral; J.L. Guyonnet; F. Hubert; Ph. Hubert; Bernard Humbert; R. Igersheim; P. Imbert; C. Jollet; S. Jullian; I. Kisel; A. Klimenko; O. Kochetov
Abstract The development of the Neutrino Ettore Majorana Observatory (NEMO ∼ 3 ) detector, which is now running in the Frejus Underground Laboratory (L.S.M. Laboratoire Souterrain de Modane), was begun more than ten years ago. The NEMO 3 detector uses a tracking-calorimeter technique in order to investigate double beta decay processes for several isotopes. The technical description of the detector is followed by the presentation of its performance.
Advances in High Energy Physics | 2014
N. Abgrall; E. Aguayo; Frank T. Avignone; A. S. Barabash; F. E. Bertrand; Melissa Boswell; V. Brudanin; M. Busch; A. S. Caldwell; Y.D. Chan; C. D. Christofferson; D. C. Combs; J. A. Detwiler; P. J. Doe; Y. V. Efremenko; V. Egorov; H. Ejiri; S. R. Elliott; J. Esterline; J. E. Fast; P. Finnerty; F. M. Fraenkle; A. Galindo-Uribarri; G. K. Giovanetti; J. Goett; M. P. Green; J. Gruszko; V. E. Guiseppe; K. Gusev; A. L. Hallin
The MAJORANA DEMONSTRATOR will search for the neutrinoless double-beta decay of the isotope Ge with a mixed array of enriched and natural germanium detectors. The observation of this rare decay would indicate that the neutrino is its own antiparticle, demonstrate that lepton number is not conserved, and provide information on the absolute mass scale of the neutrino. The DEMONSTRATOR is being assembled at the 4850-foot level of the Sanford Underground Research Facility in Lead, South Dakota. The array will be situated in a low-background environment and surrounded by passive and active shielding. Here we describe the science goals of the DEMONSTRATOR and the details of its design.
European Physical Journal C | 2010
R. Arnold; C. Augier; J. Baker; A. S. Barabash; A. Basharina-Freshville; M. Bongrand; V. Brudanin; A. J. Caffrey; S. Cebrián; A. Chapon; E. Chauveau; Th. Dafni; Frank F. Deppisch; J. Díaz; D. Durand; V. Egorov; J. J. Evans; R. Flack; K-I. Fushima; I. García Irastorza; X. Garrido; Haley Louise Gomez; B. Guillon; A. Holin; K. Holy; J.J. Horkley; Ph. Hubert; C. Hugon; F. J. Iguaz; N. Ishihara
The possibility to probe new physics scenarios of light Majorana neutrino exchange and right-handed currents at the planned next generation neutrinoless double β decay experiment SuperNEMO is discussed. Its ability to study different isotopes and track the outgoing electrons provides the means to discriminate different underlying mechanisms for the neutrinoless double β decay by measuring the decay half-life and the electron angular and energy distributions.
Physical Review C | 2009
J. Argyriades; R. Arnold; C. Augier; J. Baker; A. S. Barabash; A. Basharina-Freshville; M. Bongrand; G. Broudin; V. Brudanin; A. J. Caffrey; E. Chauveau; Z. Daraktchieva; D. Durand; V. Egorov; N. Fatemi-Ghomi; R. L. Flack; Ph. Hubert; J. Jerie; S. Jullian; M. Kauer; S. King; A. Klimenko; O. Kochetov; S. I. Konovalov; V. Kovalenko; D. Lalanne; T. Lamhamdi; K. Lang; Y. Lemière; C. Longuemare
The half-life for double-{beta} decay of {sup 150}Nd has been measured by the NEMO-3 experiment at the Modane Underground Laboratory. Using 924.7 days of data recorded with 36.55 g of {sup 150}Nd, we measured the half-life for 2{nu}{beta}{beta} decay to be T{sub 1/2}{sup 2{nu}}=(9.11{sub -0.22}{sup +0.25}(stat.){+-}0.63(syst.))x10{sup 18} yr. The observed limit on the half-life for neutrinoless double-{beta} decay is found to be T{sub 1/2}{sup 0{nu}}>1.8x10{sup 22} yr at 90% confidence level. This translates into a limit on the effective Majorana neutrino mass of <4.0-6.3 eV if the nuclear deformation is taken into account. We also set limits on models involving Majoron emission, right-handed currents, and transitions to excited states.
Nuclear Physics | 1998
R. Arnold; C.S. Sutton; D. Dassie; I. Kisel; V.M. Kornoukhov; F. Hubert; A.J. Caffrey; V. Kovalenko; J. Baker; Y. Vasilyev; C. Longuemare; H.W. Nicholson; V. Brudanin; O. Kochetov; V. Zerkin; Ph. Hubert; V. Egorov; F. Laplanche; G. Szklarz; V.I. Tretyak; X. Sarazin; I. Vanyushin; R. Torres; R. Eschbach; O. Purtov; Jean-Eric Campagne; V. I. Umatov; P. Mennrath; E. Caurier; I. Linck
Abstract The NEMO-2 tracking detector located in the Frejus Underground Laboratory was designed as a prototype of the NEMO-3 detector to study neutrinoless (Oν) and two neutrino (2ν) double-beta decay (ββ) physics. After 10357 h of running with an isotopically enriched selenium source (2.17 mol yr of 82Se) a ββ2ν decay half-life of T 1 2 = (0.83 ± 0.10( stat ) ± 0.07 ( syst )) × 10 20 yr was measured. Limits with a 90% C.L. on the 82Se half-lives of 9.5 × 1021 yr for ββ0ν decay to the ground state, 2.8 × 1021 yr to the (2+) excited state and 2.4 × 1021 yr for ββ0νχ0 decay with a Majoron (χ0) were also obtained.
Nuclear Physics | 1999
R. Arnold; C. Augier; J. Baker; A. S. Barabash; D. Blum; V. Brudanin; A. J. Caffrey; Jean-Eric Campagne; E. Caurier; D. Dassie; V. Egorov; T. Filipova; R. Gurriaran; J.L. Guyonnet; F. Hubert; Ph. Hubert; S. Jullian; I. Kisel; O. Kochetov; V.N. Kornoukhov; V. Kovalenko; D. Lalanne; F. Laplanche; F. Leccia; I. Linck; C. Longuemare; Ch. Marquet; F. Mauger; H.W. Nicholson; I. Pilugin
Abstract After 10357 h of running the NEMO-2 tracking detector with an isotopically enriched zirconium source (0.084 mol yr of 96Zr), a ββ2ν decay half-life of T1/2=(2.1+0.8(stat)−0.4(stat)±0.2(syst))·1019 y was measured. Limits with a 90% C.L. on the 96Zr half-lives of 1.0·1021 y for ββ0ν decay to the ground state, 3.9·1020 y to the 2+ excited state and 3.5·1020 y for ββ0νχ0 decay with a Majoron (χ0) were obtained. The data also provide direct limits at the 90% C.L. for the 94Zr half-lives. These limits are 1.1·1017 y for ββ2ν decay to the ground state, 1.9·1019 y for ββ0ν decay to the ground state and 2.3·1018 y for ββ0νχ0 decay to ground state.
Nuclear Physics | 2007
A. S. Barabash; Ph. Hubert; A. Nachab; V. I. Umatov
Abstract Limits on double-beta processes in 74Se have been obtained using a 400 cm3 HPGe detector and an external source consisting of natural selenium powder. In particular, limit with a 90% C.L. on the 74Se half-life of 5.5 × 10 18 yr for ECEC(0ν) transitions to the 2 2 + excited state in 74Ge (1204.2 keV) has been obtained. This transition is discussed in association with a possible enhancement of the decay rate, in this case by several orders of magnitude, because the ECEC(0ν) process is nearly degenerate with an excited state in the daughter nuclide. Prospects for investigating such processes in future experiments are discussed. For other β + EC and ECEC transitions (to the ground and excited states) obtained limits are on the level ∼ 10 18 − 10 19 yr.
Nuclear Physics | 2000
R. Arnold; C.S. Sutton; V. Timkin; L. Vála; F. Hubert; A. J. Caffrey; V. Kovalenko; J. Baker; L. Simard; V. Vorobel; C. Longuemare; S. I. Konovalov; V. Brudanin; O. Kochetov; S. Jullian; R. Saakyan; V. Egorov; V.I. Tretyak; G. Szklarz; X. Sarazin; I. Vanyushin; F. Nowacki; S. King; V. Vasilyev; V. I. Umatov; Ts. Vylov; A.I. Etienvre; G. Lutter; F. Šimkovic; E. Caurier
Abstract The NEMO-3 tracking detector is located in the Frejus Underground Laboratory. It was designed to study double beta decay in a number of different isotopes. Presented here are the experimental half-life limits on the double beta decay process for the isotopes 100Mo and 82Se for different majoron emission modes and limits on the effective neutrino–majoron coupling constants. In particular, new limits on “ordinary” majoron (spectral index 1) decay of 100Mo ( T 1 / 2 > 2.7 × 10 22 yr ) and 82Se ( T 1 / 2 > 1.5 × 10 22 yr ) have been obtained. Corresponding bounds on the majoron–neutrino coupling constant are 〈 g e e 〉 ( 0.4 – 1.8 ) × 10 −4 and ( 0.66 – 1.9 ) × 10 −4 .
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