V
V. M. Gehman
Researcher at Lawrence Berkeley National Laboratory
Publications - 115
Citations - 9745
V. M. Gehman is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Double beta decay & Xenon. The author has an hindex of 38, co-authored 112 publications receiving 8810 citations. Previous affiliations of V. M. Gehman include Virginia Tech & Los Alamos National Laboratory.
Papers
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Journal ArticleDOI
Limits on Spin-Dependent WIMP-Nucleon Cross Section Obtained from the Complete LUX Exposure
D. S. Akerib,D. S. Akerib,D. S. Akerib,S. Alsum,Henrique Araujo,X. Bai,A. J. Bailey,J. Balajthy,P. Beltrame,Ethan Bernard,Ethan Bernard,A. Bernstein,T. P. Biesiadzinski,T. P. Biesiadzinski,T. P. Biesiadzinski,E. M. Boulton,E. M. Boulton,E. M. Boulton,P. Brás,D. Byram,Sidney Cahn,M. C. Carmona-Benitez,M. C. Carmona-Benitez,C. Chan,A. A. Chiller,C. Chiller,A. Currie,J. E. Cutter,T. J. R. Davison,A. Dobi,J. E. Y. Dobson,E. Druszkiewicz,B. N. Edwards,C. H. Faham,S. R. Fallon,S. Fiorucci,S. Fiorucci,R. J. Gaitskell,V. M. Gehman,C. Ghag,M. G. D. Gilchriese,C. R. Hall,M. Hanhardt,S. J. Haselschwardt,S. A. Hertel,S. A. Hertel,S. A. Hertel,D. P. Hogan,M. Horn,M. Horn,D. Q. Huang,C. M. Ignarra,C. M. Ignarra,R. G. Jacobsen,W. Ji,W. Ji,W. Ji,K. Kamdin,K. Kazkaz,D. Khaitan,R. Knoche,N. A. Larsen,Ching Hua Lee,Ching Hua Lee,Ching Hua Lee,B. G. Lenardo,B. G. Lenardo,K. T. Lesko,A. Lindote,M.I. Lopes,A. Manalaysay,R. L. Mannino,M. F. Marzioni,Daniel McKinsey,Daniel McKinsey,Daniel McKinsey,Dongming Mei,J. Mock,M. Moongweluwan,J. A. Morad,A. St. J. Murphy,C. Nehrkorn,H. N. Nelson,F. Neves,K. O’Sullivan,K. O’Sullivan,K. O’Sullivan,K. C. Oliver-Mallory,K. J. Palladino,K. J. Palladino,K. J. Palladino,E. K. Pease,E. K. Pease,E. K. Pease,L. Reichhart,C. Rhyne,S. Shaw,S. Shaw,T. A. Shutt,T. A. Shutt,C. Silva,M. Solmaz,V. N. Solovov,P. Sorensen,S. Stephenson,T. J. Sumner,Matthew Szydagis,D. J. Taylor,W. C. Taylor,B. P. Tennyson,P. A. Terman,D. R. Tiedt,W. H. To,Mani Tripathi,L. Tvrznikova,L. Tvrznikova,L. Tvrznikova,S. Uvarov,V. Velan,J.R. Verbus,R. C. Webb,J. T. White,T. J. Whitis,T. J. Whitis,T. J. Whitis,M. S. Witherell,F.L.H. Wolfs,Jilei Xu,K. Yazdani,Sarah Young,Chao Zhang +130 more
TL;DR: The spin-dependent WIMP-neutron limit is the most sensitive constraint to date.
ReportDOI
LUX-ZEPLIN (LZ) Conceptual Design Report
D. S. Akerib,D. S. Akerib,R. M. Preece,V. Bugaev,T. K. Edberg,Hoff,Patrick Bauer,A. Currie,J. Mock,D. White,V. M. Gehman,S. D. Worm,M. F. Marzioni,D. Markley,C. M. Ignarra,E. M. Boulton,Sergey Burdin,Bhawna Gomber,C. E. Dahl,E. Druszkiewicz,Eli Woods,S. A. Hertel,Daniel McKinsey,P.R. Scovell,T.W. Hurteau,Olevitch,T. A. Shutt,T. J. R. Davison,K. C. Oliver-Mallory,P. Ford,B. Holbrook,C. Ghag,K. Sundarnath,B. N. Edwards,A. Khazov,R.M. Gerhard,J.S. Saba,M. Elnimr,A.A. Chiller,S. Balashov,Wolfgang Lorenzon,L. Reichhart,J. Busenitz,Carl W. Akerlof,V. B. Francis,A. Konovalov,Matthew Szydagis,Mikkel B. Johnson,J. Reichenbacher,H. Kraus,Wenzhao Wei,Laura Manenti,M. Cascella,D. Woodward,Minfang Yeh,C. Carels,S. Luitz,Witherell,W. Skulski,Sridhara Dasu,X. Ji,W. T. Emmet,N.J. Gantos,J. E. Cutter,A. Tomás,K. O'Sullivan,F. G. O'Neill,J. E. Y. Dobson,J. Thomson,J. H. Buckley,K.J. Thomas,I. Stancu,M.J. Barry,T.J. Martin,A. Lindote,M. E. Monzani,R. Bunker,K. T. Lesko,Chao Zhang,Mani Tripathi,S. J. Haselschwardt,L. Tvrznikova,P. A. Terman,Duncan Carlsmith,M. R. While,D. Khaitan,R.G. Jacobsen,J. O'Dell,A. Harris,E. K. Pease,J. Va’vra,J. Lin,K. Skarpaas,Elena Korolkova,S.K. Young,W. Craddock,T. J. Whitis,B. N. Ratcliff,M. C. Carmona-Benitez,J. Liu,R. J. Gaitskell,C. Chiller,H.J. Krebs,K. Kazkaz,N.A. Larsen,R. Bramante,M. G. D. van der Grinten,Richard Rosero,C. R. Hall,E. Holtom,C. Lee,C. O. Vuosalo,V. N. Solovov,C. Rhyne,T. J. Sumner,S. Powell,P. Beltrame,R. C. Webb,M. G. D. Gilchriese,C. Fu,J. A. Morad,S. Kyre,D. R. Tiedt,L. de Viveiros,B. P. Tennyson,D. Q. Huang,C. Silva,A. Bernstein,T. P. Biesiadzinski,J. Balajthy,J.P. Rodrigues,S. J. Patton,M.R. Stark,F.-T. Liao,S. Stephenson,W. H. Lippincott,Yue Meng,K. Pushkin,L. Wang,Michael Schubnell,X. Bai,K. J. Palladino,D.Yu. Akimov,W. H. To,A. V. Kumpan,Alexander Bolozdynya,A. St. J. Murphy,A. Dobi,D. J. Taylor,A.V. Khromov,Ethan Bernard,K. E. Boast,D.C. Malling,P. Sorensen,Peter Majewski,F. Neves,F.L.H. Wolfs,V.V. Sosnovtsev,A. J. Bailey,H. N. Nelson,S. Shaw,J. J. Cherwinka,M.I. Lopes,X. Liu,E. H. Miller,C. Chan,V. A. Kudryavtsev,J.R. Verbus,R. L. Mannino,Dongming Mei,C. H. Faham,S. Uvarov,T.M. Stiegler,R. W. Schnee,M. Pangilinan,Henrique Araujo,S. Alsum,W. J. Wisniewski,H. J. Rose,K. Kamdin,M. Sarychev,A. Manalaysay,W. Ji,J. Yin,W. C. Taylor,W. R. Edwards,J.P. da Cunha,Y. Ju,A. Piepke,W.L. Waldron,C. E. Tull,B. G. Lenardo,Ben Carlson,S. Fiorucci,James Nikkel +194 more
TL;DR: The design and performance of the LUX-ZEPLIN (LZ) detector is described as of March 2015 in this Conceptual Design Report as mentioned in this paper. And the LZ detector will be located at the Sanford Underground Research Facility in South Dakota.
Journal ArticleDOI
Results on the Spin-Dependent Scattering of Weakly Interacting Massive Particles on Nucleons from the Run 3 Data of the LUX Experiment.
D. S. Akerib,Henrique Araujo,X. Bai,A. J. Bailey,J. Balajthy,P. Beltrame,Ethan Bernard,A. Bernstein,T. P. Biesiadzinski,E. M. Boulton,A. W. Bradley,R. Bramante,Sidney Cahn,M. C. Carmona-Benitez,C. Chan,J.J. Chapman,A.A. Chiller,C. Chiller,A. Currie,J. E. Cutter,T. J. R. Davison,L. de Viveiros,A. Dobi,J. E. Y. Dobson,E. Druszkiewicz,B. N. Edwards,C. H. Faham,S. Fiorucci,R. J. Gaitskell,V. M. Gehman,C. Ghag,K.R. Gibson,M. G. D. Gilchriese,C. R. Hall,M. Hanhardt,S. J. Haselschwardt,S. A. Hertel,D. P. Hogan,M. Horn,D. Q. Huang,C. M. Ignarra,M. Ihm,R.G. Jacobsen,W. Ji,K. Kazkaz,D. Khaitan,R. Knoche,N.A. Larsen,C. Lee,B. G. Lenardo,K. T. Lesko,A. Lindote,M.I. Lopes,D.C. Malling,A. Manalaysay,R. L. Mannino,M. F. Marzioni,Daniel McKinsey,D. M. Mei,J. Mock,M. Moongweluwan,J. A. Morad,A. St. J. Murphy,C. Nehrkorn,H. N. Nelson,F. Neves,K. O'Sullivan,K. C. Oliver-Mallory,R. A. Ott,K. J. Palladino,M. Pangilinan,E. K. Pease,P. Phelps,L. Reichhart,C. Rhyne,S. Shaw,T. A. Shutt,C. Silva,V. N. Solovov,P. Sorensen,S. Stephenson,T. J. Sumner,Matthew Szydagis,D. J. Taylor,W. C. Taylor,B. P. Tennyson,P. A. Terman,D. R. Tiedt,W. H. To,Mani Tripathi,L. Tvrznikova,S. Uvarov,J.R. Verbus,R. C. Webb,J. T. White,T. J. Whitis,Michael S. Witherell,F.L.H. Wolfs,K. Yazdani,Sarah Young,Chao Zhang +100 more
TL;DR: The spin-dependent WIMP-neutron limit is the most sensitive constraint to date.
Journal ArticleDOI
Search for Neutrinoless Double-β Decay in ^{76}Ge with the Majorana Demonstrator.
Craig E. Aalseth,N. Abgrall,E. Aguayo,S. I. Alvis,Mark Amman,I. J. Arnquist,F. T. Avignone,Henning O. Back,A. S. Barabash,P. S. Barbeau,C. J. Barton,Paul Barton,F. E. Bertrand,T. Bode,B. Bos,M. Boswell,A. W. Bradley,Ronald L. Brodzinski,V.B. Brudanin,M. Busch,M. Buuck,A. S. Caldwell,T. S. Caldwell,Yuen-Dat Chan,C. D. Christofferson,P. H. Chu,J. I. Collar,D. C. Combs,Reynold J. Cooper,C. Cuesta,J. A. Detwiler,P. J. Doe,J. A. Dunmore,Yu. Efremenko,H. Ejiri,S. R. Elliott,James E. Fast,P. Finnerty,F. M. Fraenkle,Z. Fu,B. K. Fujikawa,Erin S. Fuller,A. Galindo-Uribarri,V. M. Gehman,T. Gilliss,G. K. Giovanetti,J. Goett,M. P. Green,J. Gruszko,I. S. Guinn,V. E. Guiseppe,A. L. Hallin,C. R. Haufe,L. Hehn,R. Henning,Eric W. Hoppe,Todd W. Hossbach,M. A. Howe,B. R. Jasinski,R. A. Johnson,K. J. Keeter,Jeremy D. Kephart,M. F. Kidd,A. Knecht,S. I. Konovalov,Richard T. Kouzes,Brian D. LaFerriere,Jonathan D. Leon,K. T. Lesko,L. E. Leviner,J. C. Loach,A. M. Lopez,Paul N. Luke,J. MacMullin,S. MacMullin,Michael G. Marino,R. D. Martin,Ralph Massarczyk,A. B. McDonald,D. M. Mei,S.J. J Meijer,J. H. Merriman,Susanne Mertens,Harry S. Miley,M. L. Miller,J. Myslik,John L. Orrell,C. O'Shaughnessy,G. Othman,Nicole R. Overman,G. Perumpilly,Walter C. Pettus,D. G. Phillips,Alan Poon,K. Pushkin,D. C. Radford,J. Rager,J.H. Reeves,A. L. Reine,Keith Rielage,R. G. H. Robertson,M. C. Ronquest,N. W. Ruof,Alexis G. Schubert,B. Shanks,M. Shirchenko,K. J. Snavely,N. Snyder,D. Steele,Anne-Marie Suriano,D. J. Tedeschi,Werner Tornow,J. E. Trimble,R. L. Varner,S. Vasilyev,Kai Vetter,K. Vorren,B. R. White,J. F. Wilkerson,C. Wiseman,W. Xu,E. Yakushev,H. Yaver,A. R. Young,C.-H. Yu,V. Yumatov,I. Zhitnikov,B. X. Zhu,S. Zimmermann +128 more
TL;DR: The Majorana Demonstrator as discussed by the authors achieved an energy resolution of 2.5 keV FWHM at Qββ and a very low background with no observed candidate events in 9.95 kg yr of enriched Ge exposure, resulting in a lower limit on the half-life of 1.9×10−25−25 −1.
Journal ArticleDOI
\textsc{MaGe} - a {\sc Geant4}-based Monte Carlo Application Framework for Low-background Germanium Experiments
Melissa Boswell,Yuen-Dat Chan,J. A. Detwiler,P. Finnerty,Reyco Henning,V. M. Gehman,R. A. Johnson,David V. Jordan,K. Kazkaz,Markus Knapp,K. Kröninger,D. Lenz,Lance Leviner,Jing Liu,X. Liu,Sean MacMullin,Michael G. Marino,Akbar Mokhtarani,Luciano Pandola,Alexis G. Schubert,Jens Schubert,C. Tomei,Oleksandr Volynets +22 more
TL;DR: MAGE as discussed by the authors is a physics simulation software framework based on the GEANT4 simulation toolkit that is used to simulate the response of ultra-low radioactive background radiation detectors to ionizing radiation, specifically the MAJORANA and GERDA neutrinoless double-beta decay experiments.