R. R. Mammei
Virginia Tech
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Featured researches published by R. R. Mammei.
Physical Review Letters | 2010
J. Liu; M. P. Mendenhall; Adam Holley; H. O. Back; T. J. Bowles; L. J. Broussard; R. Carr; S. Clayton; S. Currie; B. W. Filippone; Alejandro García; P. Geltenbort; K. P. Hickerson; J. Hoagland; Gary E. Hogan; B. Hona; T. M. Ito; C.-Y. Liu; M. Makela; R. R. Mammei; J. W. Martin; D. Melconian; C. L. Morris; R. W. Pattie; A. Pérez Galván; M. L. Pitt; B. Plaster; J. C. Ramsey; R. Rios; R. Russell
A precise measurement of the neutron decay β asymmetry A₀ has been carried out using polarized ultracold neutrons from the pulsed spallation ultracold neutron source at the Los Alamos Neutron Science Center. Combining data obtained in 2008 and 2009, we report A₀ = -0.119 66±0.000 89{-0.001 40}{+0.001 23}, from which we determine the ratio of the axial-vector to vector weak coupling of the nucleon g{A}/g{V}=-1.275 90{-0.004 45}{+0.004 09}.
Physical Review C | 2013
M. P. Mendenhall; R. W. Pattie; Y. Bagdasarova; D. B. Berguno; L. J. Broussard; R. Carr; S. Currie; X. Ding; B. W. Filippone; A. Garc; P. Geltenbort; K. P. Hickerson; J. Hoagland; Adam Holley; R. Hong; Takeyasu M. Ito; A. Knecht; Y. Liu; J. Liu; M. Makela; R. R. Mammei; J. W. Martin; Dan Melconian; S. D. Moore; C. L. Morris; M. L. Pitt; B. Plaster; J. C. Ramsey; R. Rios; A. Saunders
A new measurement of the neutron β-decay asymmetry A_0 has been carried out by the UCNA Collaboration using polarized ultracold neutrons (UCNs) from the solid deuterium UCN source at the Los Alamos Neutron Science Center. Improvements in the experiment have led to reductions in both statistical and systematic uncertainties leading to A_0=−0.11954(55)_(stat)(98)_(syst), corresponding to the ratio of axial-vector to vector coupling λ ≡ g_A/g_V = −1.2756(30).
Physical Review C | 2012
B. Plaster; J. Hoagland; R. W. Pattie; S. Clayton; P. Geltenbort; R. Mortensen; C. Wrede; A. García; H. Yan; T. J. Bowles; A. Saunders; B. W. Filippone; R. Rios; Dan Melconian; R. R. Mammei; R. Carr; Jianbei Liu; B. Hona; B. VornDick; M. Makela; A. R. Young; K. P. Hickerson; H. O. Back; M. P. Mendenhall; R. B. Vogelaar; T. M. Ito; S. J. Seestrom; J. C. Ramsey; Gary E. Hogan; W. E. Sondheim
We present a detailed report of a measurement of the neutron β-asymmetry parameter A_0, the parity-violating angular correlation between the neutron spin and the decay electron momentum, performed with polarized ultracold neutrons (UCN). UCN were extracted from a pulsed spallation solid deuterium source and polarized via transport through a 7-T magnetic field. The polarized UCN were then transported through an adiabatic-fast-passage spin-flipper field region, prior to storage in a cylindrical decay volume situated within a 1-T 2×2π solenoidal spectrometer. The asymmetry was extracted from measurements of the decay electrons in multiwire proportional chamber and plastic scintillator detector packages located on both ends of the spectrometer. From an analysis of data acquired during runs in 2008 and 2009, we report A_0=−0.11966±0.00089_(−0.00140)^(+0.00123), from which we extract a value for the ratio of the weak axial-vector and vector coupling constants of the nucleon, λ=g_A/g_V=−1.27590±0.00239_(−0.00377)^(+0.00331). Complete details of the analysis are presented.
Physical Review C | 2013
M. P. Mendenhall; R. W. Pattie; Y. Bagdasarova; D. B. Berguno; L. J. Broussard; R. Carr; S. Currie; X. Ding; B. W. Filippone; A. García; P. Geltenbort; K. P. Hickerson; J. Hoagland; Adam Holley; R. Hong; T. M. Ito; A. Knecht; C.-Y. Liu; J. Liu; M. Makela; R. R. Mammei; J. W. Martin; Dan Melconian; S. D. Moore; C. L. Morris; A. Pérez Galván; R. Picker; M. L. Pitt; B. Plaster; J. C. Ramsey
A new measurement of the neutron β-decay asymmetry A_0 has been carried out by the UCNA Collaboration using polarized ultracold neutrons (UCNs) from the solid deuterium UCN source at the Los Alamos Neutron Science Center. Improvements in the experiment have led to reductions in both statistical and systematic uncertainties leading to A_0=−0.11954(55)_(stat)(98)_(syst), corresponding to the ratio of axial-vector to vector coupling λ ≡ g_A/g_V = −1.2756(30).
Physical Review C | 2012
B. Plaster; R. Rios; H. O. Back; T. J. Bowles; L. J. Broussard; R. Carr; S. Clayton; S. Currie; B. W. Filippone; A. García; P. Geltenbort; K. P. Hickerson; J. Hoagland; Gary E. Hogan; B. Hona; Adam Holley; T. M. Ito; C.-Y. Liu; Jianbei Liu; M. Makela; R. R. Mammei; J. W. Martin; Dan Melconian; M. P. Mendenhall; C. L. Morris; R. Mortensen; R. W. Pattie; A. Pérez Galván; M. L. Pitt; J. C. Ramsey
We present a detailed report of a measurement of the neutron β-asymmetry parameter A_0, the parity-violating angular correlation between the neutron spin and the decay electron momentum, performed with polarized ultracold neutrons (UCN). UCN were extracted from a pulsed spallation solid deuterium source and polarized via transport through a 7-T magnetic field. The polarized UCN were then transported through an adiabatic-fast-passage spin-flipper field region, prior to storage in a cylindrical decay volume situated within a 1-T 2×2π solenoidal spectrometer. The asymmetry was extracted from measurements of the decay electrons in multiwire proportional chamber and plastic scintillator detector packages located on both ends of the spectrometer. From an analysis of data acquired during runs in 2008 and 2009, we report A_0=−0.11966±0.00089_(−0.00140)^(+0.00123), from which we extract a value for the ratio of the weak axial-vector and vector coupling constants of the nucleon, λ=g_A/g_V=−1.27590±0.00239_(−0.00377)^(+0.00331). Complete details of the analysis are presented.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2009
C. L. Morris; T. J. Bowles; J. Gonzales; R. Hill; Gary E. Hogan; M. Makela; R. Mortenson; J. C. Ramsey; A. Saunders; S. J. Seestrom; W. E. Sondheim; W. Teasdale; H.O. Back; R. W. Pattie; Adam Holley; A. R. Young; L. J. Broussard; K. P. Hickerson; J. Liu; M. P. Mendenhall; B. Plaster; R. R. Mammei; M. L. Pitt; R. B. Vogelaar; R. Rios; J. Martin
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2011
R. Rios; E. Tatar; Jeffrey Bacon; T. J. Bowles; R. Hill; J. A. Green; Gary E. Hogan; Takeyasu M. Ito; M. Makela; C. L. Morris; R. Mortenson; F.E. Pasukanics; J. C. Ramsey; A. Saunders; S. J. Seestrom; W. E. Sondheim; W. Teasdale; M. Saltus; H. O. Back; C.R. Cottrell; Adam Holley; R. W. Pattie; A. R. Young; L. J. Broussard; B. W. Filippone; K. P. Hickerson; J. Liu; M. P. Mendenhall; B. Plaster; R. R. Mammei
Physical Review Letters | 2010
Jianbei Liu; M. P. Mendenhall; Adam Holley; H. O. Back; T. J. Bowles; L. J. Broussard; R. Carr; S. Clayton; S. Currie; B. W. Filippone; A. García; P. Geltenbort; K. P. Hickerson; J. Hoagland; Gary E. Hogan; B. Hona; T. M. Ito; C.-Y. Liu; M. Makela; R. R. Mammei; J. W. Martin; Dan Melconian; C. L. Morris; R. W. Pattie; A. Pérez Galván; M. L. Pitt; B. Plaster; J. C. Ramsey; R. Rios; R. Russell
Physical Review C | 2017
K. P. Hickerson; X. Sun; Y. Bagdasarova; D. Bravo-Berguño; L. J. Broussard; M. A.-P. Brown; R. Carr; S. Currie; X. Ding; B. W. Filippone; A. García; P. Geltenbort; J. Hoagland; Adam Holley; R. Hong; T. M. Ito; A. Knecht; C.-Y. Liu; J. Liu; M. Makela; R. R. Mammei; J. W. Martin; Dan Melconian; M. P. Mendenhall; S. D. Moore; C. L. Morris; R. W. Pattie; A. Pérez Galván; R. Picker; M. L. Pitt
Physical Review Letters | 2010
Jianbei Liu; M. P. Mendenhall; Adam Holley; H. O. Back; T. J. Bowles; L. J. Broussard; R. Carr; S. Clayton; S. Curie; B. W. Filippone; A. García; P. Geltenbort; K. P. Hickerson; J. Hoagland; Gary E. Hogan; B. Hona; T. M. Ito; C.-Y. Liu; M. Makela; R. R. Mammei; J. W. Martin; Dan Melconian; C. L. Morris; R. W. Pattie; A. Pérez Galván; M. L. Pitt; B. Plaster; J. C. Ramsey; R. Rios; R. Russell
