B
B. Mong
Researcher at SLAC National Accelerator Laboratory
Publications - 43
Citations - 1386
B. Mong is an academic researcher from SLAC National Accelerator Laboratory. The author has contributed to research in topics: Xenon & Double beta decay. The author has an hindex of 14, co-authored 36 publications receiving 1204 citations. Previous affiliations of B. Mong include Colorado State University & Laurentian University.
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Journal ArticleDOI
Search for Neutrinoless Double-Beta Decay in $^{136}$Xe with EXO-200
Martin Auger,D. J. Auty,P. S. Barbeau,E. Beauchamp,V. Belov,C. Benitez-Medina,Martin Breidenbach,T. Brunner,A. Burenkov,B. Cleveland,B. Cleveland,S. Cook,T. Daniels,M. Danilov,C. G. Davis,S. Delaquis,R. DeVoe,A. Dobi,M. J. Dolinski,A. Dolgolenko,Monica Dunford,W. M. Fairbank,J. Farine,W. Feldmeier,Peter Fierlinger,D. Franco,G. Giroux,R. Gornea,K. Graham,Giorgio Gratta,C. R. Hall,K. Hall,C. K. Hargrove,S. Herrin,M. Hughes,A. S. Johnson,T. N. Johnson,A. Karelin,L. J. Kaufman,A. Kuchenkov,K. S. Kumar,David Leonard,F. Leonard,D. Mackay,R. MacLellan,Michael G. Marino,B. Mong,M. Montero Díez,A. R. Müller,A. R. Müller,R. Neilson,R. Neilson,R. Nelson,A.C. Odian,I. Ostrovskiy,K. O'Sullivan,C. Ouellet,A. Piepke,A. Pocar,C. Y. Prescott,K. Pushkin,P. C. Rowson,J. J. Russell,A. Sabourov,David A. Sinclair,S. Slutsky,V.N. Stekhanov,T. Tolba,D. Tosi,K. Twelker,Petr Vogel,J. L. Vuilleumier,A. P. Waite,T. Walton,Marc Weber,U. Wichoski,J. Wodin,J. D. Wright,Liang Yang,Y.-R. Yen,O. Ya. Zeldovich +80 more
TL;DR: This work sets a lower limit on the half-life of the neutrinoless double-beta decay T(1/2)(0νββ)(136Xe)>1.6×10(25) yr (90% C.L.), corresponding to effective Majorana masses of less than 140-380 meV, depending on the matrix element calculation.
Journal ArticleDOI
Improved measurement of the 2νββ half-life of 136 Xe with the EXO-200 detector
J. B. Albert,Martin Auger,D. J. Auty,P. S. Barbeau,E. Beauchamp,D. Beck,V. A. Belov,C. Benitez-Medina,J. Bonatt,J. Bonatt,Martin Breidenbach,T. Brunner,A. Burenkov,Guofu Cao,C. Chambers,J. Chaves,B. T. Cleveland,S. Cook,A. Craycraft,T. Daniels,M. Danilov,S. J. Daugherty,C. G. Davis,J. Davis,R. DeVoe,S. Delaquis,A. Dobi,A. Dolgolenko,M. J. Dolinski,Monica Dunford,W. M. Fairbank,J. Farine,W. Feldmeier,Peter Fierlinger,D. Franco,D. Fudenberg,G. Giroux,R. Gornea,K. Graham,Giorgio Gratta,C. R. Hall,K. Hall,C. K. Hargrove,S. Herrin,M. Hughes,X. S. Jiang,A. S. Johnson,T. N. Johnson,S. Johnston,A. Karelin,L. J. Kaufman,Ryan Killick,S. Kravitz,A. Kuchenkov,K. S. Kumar,David Leonard,F. Leonard,C. Licciardi,R. MacLellan,Michael G. Marino,B. Mong,M. Montero Díez,David Moore,R. H. Nelson,K. O'Sullivan,A.C. Odian,I. Ostrovskiy,C. Ouellet,A. Piepke,A. Pocar,C. Y. Prescott,A Rivas,P. C. Rowson,M. P. Rozo,J. J. Russell,A. Sabourov,David A. Sinclair,K. Skarpaas,S. Slutsky,V.N. Stekhanov,V. Strickland,M. Tarka,T. Tolba,D. Tosi,K. Twelker,Petr Vogel,J. L. Vuilleumier,A. P. Waite,J. Walton,T. Walton,Marc Weber,L. J. Wen,U. Wichoski,J. Wodin,J. D. Wright,Liang Yang,Y.-R. Yen,O. Ya. Zeldovich,Y. B. Zhao +98 more
TL;DR: In this paper, an improved measurement of the 2νββ half-life performed by EXO-200 is reported, which is the most precisely measured half- life of any 2ν ββ decay to date.
Journal ArticleDOI
The EXO-200 detector, part I: detector design and construction
M. Auger,D. J. Auty,P. S. Barbeau,L. Bartoszek,E. Baussan,E. Beauchamp,C. Benitez-Medina,Martin Breidenbach,D. Chauhan,B. T. Cleveland,R. Conley,J. Cook,S. Cook,A. Coppens,W. Craddock,T. Daniels,C. G. Davis,James G. Davis,R. DeVoe,A. Dobi,M. J. Dolinski,M. Dunford,W. M. Fairbank,J. Farine,P. Fierlinger,D. Franco,G. Giroux,R. Gornea,K. Graham,Giorgio Gratta,C. Hagemann,C. R. Hall,K. Hall,C. K. Hargrove,S. Herrin,J. Hodgson,M. Hughes,A. Karelin,L. J. Kaufman,Julie Kirk,A. Kuchenkov,K. S. Kumar,David Leonard,F. Leonard,F. LePort,D. Mackay,R. MacLellan,Michael G. Marino,K. Merkle,B. Mong,M. Montero Díez,A. R. Müller,R. Neilson,A. Odian,K. O'Sullivan,C. Ouellet,A. Piepke,A. Pocar,C. Y. Prescott,K. Pushkin,A Rivas,E. Rollin,P. C. Rowson,A. Sabourov,David A. Sinclair,K. Skarpaas,S. Slutsky,V.N. Stekhanov,V. Strickland,M. Swift,D. Tosi,K. Twelker,J. L. Vuilleumier,J. M. Vuilleumier,T. Walton,Marc Weber,U. Wichoski,J. Wodin,J. D. Wright,Liang Yang,Y.-R. Yen +80 more
TL;DR: The EXO-200 detector as discussed by the authors was designed to search for double beta decay of 136Xe with a single-phase liquid xenon detector, which uses an active mass of 110 kg of xenon enriched to 80.6% in the isotope 136 in an ultra low background time projection chamber capable of simultaneous detection of ionization and scintillation.
Journal ArticleDOI
The EXO-200 detector, part I: Detector design and construction
M. Auger,D. J. Auty,P. S. Barbeau,L. Bartoszek,E. Baussan,E. Beauchamp,C. Benitez-Medina,Martin Breidenbach,D. Chauhan,B. T. Cleveland,R. Conley,J. Cook,S. Cook,A. Coppens,W. Craddock,T. Daniels,C. G. Davis,James G. Davis,R. DeVoe,A. Dobi,M. J. Dolinski,M. Dunford,W. M. Fairbank,J. Farine,P. Fierlinger,D. Franco,G. Giroux,R. Gornea,K. Graham,Giorgio Gratta,C. Hagemann,C. R. Hall,K. Hall,C. K. Hargrove,S. Herrin,J. Hodgson,M. Hughes,A. Karelin,L. J. Kaufman,Julie Kirk,A. Kuchenkov,K. S. Kumar,David Leonard,F. Leonard,F. LePort,D. Mackay,R. MacLellan,Michael G. Marino,K. Merkle,B. Mong,M. Montero Díez,A. R. Müller,R. Neilson,A. Odian,K. O'Sullivan,C. Ouellet,A. Piepke,A. Pocar,C. Y. Prescott,K. Pushkin,A Rivas,E. Rollin,P. C. Rowson,A. Sabourov,David A. Sinclair,K. Skarpaas,S. Slutsky,V.N. Stekhanov,V. Strickland,M. Swift,D. Tosi,K. Twelker,J. L. Vuilleumier,J. M. Vuilleumier,T. Walton,Marc Weber,U. Wichoski,J. Wodin,J. D. Wright,Liang Yang,Y.-R. Yen +80 more
TL;DR: The EXO-200 detector as mentioned in this paper uses an active mass of 110 kg of xenon enriched to 80.6% in the isotope 136 in an ultra-low background time projection chamber capable of simultaneous detection of ionization and scintillation.
Journal ArticleDOI
Search for Majoron-emitting modes of double-beta decay of $^{136}$Xe with EXO-200
J. B. Albert,D. J. Auty,P. S. Barbeau,E. Beauchamp,Douglas H Beck,V. Belov,C. Benitez-Medina,Martin Breidenbach,T. Brunner,A. Burenkov,Guofu Cao,C. Chambers,J. Chaves,B. T. Cleveland,M. Coon,A. Craycraft,T. Daniels,M. Danilov,S. J. Daugherty,C. G. Davis,J. Davis,R. DeVoe,S. Delaquis,T. Didberidze,A. Dolgolenko,M. J. Dolinski,Monica Dunford,W. M. Fairbank,J. Farine,W. Feldmeier,Peter Fierlinger,D. Fudenberg,G. Giroux,R. Gornea,K. Graham,Giorgio Gratta,C. R. Hall,S. Herrin,M. Hughes,M. J. Jewell,X. S. Jiang,A. S. Johnson,T. N. Johnson,S. Johnston,A. Karelin,L. J. Kaufman,Ryan Killick,Thomas Koffas,S. Kravitz,A. Kuchenkov,K. S. Kumar,David Leonard,F. Leonard,C. Licciardi,Yuehe Lin,R. MacLellan,Michael G. Marino,B. Mong,David Moore,R. Nelson,A.C. Odian,I. Ostrovskiy,C. Ouellet,A. Piepke,A. Pocar,C. Y. Prescott,A Rivas,P. C. Rowson,M. P. Rozo,J. J. Russell,A. Schubert,David A. Sinclair,David A. Sinclair,E. Smith,V.N. Stekhanov,M. Tarka,T. Tolba,D. Tosi,R. Tsang,K. Twelker,Petr Vogel,J. L. Vuilleumier,A. P. Waite,J. Walton,T. Walton,Marc Weber,Liangjian Wen,U. Wichoski,Liang Yang,Y-R Yen,O. Ya. Zeldovich +90 more
TL;DR: In this article, a lower bound of T^(136)Xe_(1/2) > 1.2 × 10^(24) yr at 90% C.L. on the half-life of the spectral index=1 Majoron decay was obtained, corresponding to a constraint on the Majoron-neutrino coupling constant of |⟨g^(M)_(ee)⟩| < (0.8−1.7) × 10−5).