M
M. J. Jewell
Researcher at Stanford University
Publications - 52
Citations - 1369
M. J. Jewell is an academic researcher from Stanford University. The author has contributed to research in topics: Xenon & Double beta decay. The author has an hindex of 17, co-authored 45 publications receiving 1018 citations.
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Journal ArticleDOI
Search for Neutrinoless Double-Beta Decay with the Upgraded EXO-200 Detector
J. B. Albert,Gisela Anton,I. Badhrees,P. S. Barbeau,R. Bayerlein,Douglas H Beck,V. A. Belov,Martin Breidenbach,T. Brunner,T. Brunner,Guofu Cao,W. R. Cen,C. Chambers,B. T. Cleveland,M. Coon,A. Craycraft,W. Cree,T. Daniels,M. Danilov,S. J. Daugherty,J. Daughhetee,J. Davis,S. Delaquis,A. Der Mesrobian-Kabakian,R. DeVoe,T. Didberidze,Jens Dilling,A. Dolgolenko,M. J. Dolinski,W. M. Fairbank,J. Farine,S. Feyzbakhsh,P. Fierlinger,D. Fudenberg,R. Gornea,R. Gornea,K. Graham,Giorgio Gratta,C. R. Hall,E. V. Hansen,J. Hoessl,P. Hufschmidt,M. Hughes,A. Jamil,A. Jamil,M. J. Jewell,A. S. Johnson,S. Johnston,A. Karelin,L. J. Kaufman,Thomas Koffas,S. Kravitz,R. Krücken,A. Kuchenkov,K. S. Kumar,Y. Lan,David Leonard,G. S. Li,Shu Li,C. Licciardi,Yuehe Lin,R. MacLellan,Thilo Michel,B. Mong,David Moore,K. Murray,R. H. Nelson,O. Njoya,A. Odian,I. Ostrovskiy,A. Piepke,A. Pocar,F. Retiere,P. C. Rowson,J. J. Russell,S. Schmidt,A. Schubert,David A. Sinclair,David A. Sinclair,V.N. Stekhanov,M. Tarka,T. Tolba,R. Tsang,Petr Vogel,J. L. Vuilleumier,M. Wagenpfeil,A. P. Waite,T. Walton,Marc Weber,Liangjian Wen,U. Wichoski,Gerrit Wrede,Liang Yang,Y-R Yen,O. Ya. Zeldovich,J. Zettlemoyer,T. Ziegler +96 more
TL;DR: Results from a search for neutrinoless double-beta decay (0ν ββ) of ^{136}Xe are presented using the first year of data taken with the upgraded EXO-200 detector, with no statistically significant evidence for 0νββ observed.
Journal ArticleDOI
Search for Neutrinoless Double-β Decay with the Complete EXO-200 Dataset
Gisela Anton,I. Badhrees,P. S. Barbeau,Douglas H Beck,V. Belov,T. Bhatta,Martin Breidenbach,T. Brunner,T. Brunner,Guofu Cao,W. R. Cen,C. Chambers,B. T. Cleveland,M. Coon,A. Craycraft,T. Daniels,M. Danilov,L. Darroch,S. J. Daugherty,J. Davis,S. Delaquis,A. Der Mesrobian-Kabakian,R. DeVoe,Jens Dilling,A. Dolgolenko,M. J. Dolinski,J. Echevers,W. M. Fairbank,D. Fairbank,J. Farine,S. Feyzbakhsh,Peter Fierlinger,D. Fudenberg,P. Gautam,R. Gornea,R. Gornea,Giorgio Gratta,C. R. Hall,E. V. Hansen,J. Hoessl,P. Hufschmidt,M. Hughes,A. Iverson,A. Jamil,C. Jessiman,M. J. Jewell,A. S. Johnson,A. Karelin,L. J. Kaufman,Thomas Koffas,R. Krücken,A. Kuchenkov,K. S. Kumar,Y. Lan,A. Larson,B. G. Lenardo,David Leonard,G. S. Li,Shu Li,Z. Li,C. Licciardi,Yuehe Lin,R. MacLellan,T. McElroy,Thilo Michel,B. Mong,David Moore,K. Murray,O. Njoya,O. Nusair,A. Odian,I. Ostrovskiy,A. Piepke,A. Pocar,F. Retiere,A. Robinson,P. C. Rowson,D. Ruddell,J. Runge,S. Schmidt,David A. Sinclair,David A. Sinclair,Arun Kumar Soma,V.N. Stekhanov,M. Tarka,J. Todd,T. Tolba,T. I. Totev,B. Veenstra,V. Veeraraghavan,Petr Vogel,J. L. Vuilleumier,M. Wagenpfeil,J. Watkins,Marc Weber,L. J. Wen,U. Wichoski,Gerrit Wrede,S. X. Wu,Qing Xia,D. R. Yahne,Liang Yang,Y-R Yen,O. Ya. Zeldovich,T. Ziegler +104 more
TL;DR: In this paper, a search for neutrinoless double-β decay (0νββ) was performed with the full EXO-200 dataset using a deep neural network to discriminate between 0νβ β and background events.
Journal ArticleDOI
Sensitivity and discovery potential of the proposed nEXO experiment to neutrinoless double- β decay
J. B. Albert,Gisela Anton,I. J. Arnquist,I. Badhrees,P. S. Barbeau,Douglas H Beck,V. Belov,F. Bourque,J. P. Brodsky,Ethan Brown,T. Brunner,T. Brunner,A. Burenkov,Guofu Cao,L. Cao,W. R. Cen,C. Chambers,Serge A. Charlebois,M. Chiu,B. T. Cleveland,M. Coon,A. Craycraft,W. Cree,M. Côté,J. Dalmasson,T. Daniels,T. Daniels,S. J. Daugherty,J. Daughhetee,S. Delaquis,A. Der Mesrobian-Kabakian,R. DeVoe,T. Didberidze,Jens Dilling,Y. Y. Ding,M. J. Dolinski,Angelo Dragone,Lorenzo Fabris,W. M. Fairbank,J. Farine,S. Feyzbakhsh,Rejean Fontaine,D. Fudenberg,G. Giacomini,R. Gornea,R. Gornea,K. Graham,Giorgio Gratta,E. V. Hansen,D. Harris,M. Hasan,M. Heffner,E. W. Hoppe,A. House,P. Hufschmidt,M. Hughes,J. Hößl,Y. Ito,A. Iverson,A. Jamil,M. J. Jewell,X. S. Jiang,T. N. Johnson,T. N. Johnson,S. Johnston,S. Johnston,A. Karelin,L. J. Kaufman,L. J. Kaufman,Ryan Killick,Thomas Koffas,S. Kravitz,S. Kravitz,R. Krücken,A. Kuchenkov,K. S. Kumar,Y. Lan,David Leonard,G. S. Li,Shu Li,Z. Li,C. Licciardi,C. Licciardi,Yuehe Lin,R. MacLellan,Thilo Michel,B. Mong,David Moore,K. Murray,R. J. Newby,Zhijun Ning,O. Njoya,F. Nolet,K. Odgers,A.C. Odian,M. Oriunno,John L. Orrell,I. Ostrovskiy,C. T. Overman,G. S. Ortega,S. Parent,A. Piepke,A. Pocar,Jean-Francois Pratte,D. Qiu,Veljko Radeka,E. Raguzin,T. Rao,S. Rescia,F. Retiere,A. Robinson,T. Rossignol,P. C. Rowson,N. Roy,R. Saldanha,Samuele Sangiorgio,S. Schmidt,J. Schneider,A. Schubert,David A. Sinclair,K. Skarpaas,Arun Kumar Soma,G. St-Hilaire,V.N. Stekhanov,T. Stiegler,X.L. Sun,M. Tarka,J. Todd,T. Tolba,R. Tsang,T. Tsang,F. Vachon,V. Veeraraghavan,G. Visser,Petr Vogel,J. L. Vuilleumier,M. Wagenpfeil,Qun-Yao Wang,Marc Weber,Wei Wei,L. J. Wen,U. Wichoski,G. Wrede,S. X. Wu,Wei Wu,Liang Yang,Y-R Yen,O. Zeldovich,J. Zettlemoyer,Xuan Zhang,J. B. Zhao,Yu-Guang Zhou,T. Ziegler +152 more
TL;DR: The next generation Enriched Xenon Observatory (nEXO) is a proposed experiment to search for neutrinoless double-β (0νββ) decay in Xe136 with a target half-life sensitivity of approximately 1028 yr using 5×103 kg of isotopically enriched liquid-xenon in a time projection chamber as discussed by the authors.
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).
Posted Content
nEXO Pre-Conceptual Design Report
S. Al Kharusi,R. Saldanha,K. Odgers,Yuehe Lin,R. DeVoe,S. Kravitz,J. Hößl,J. Daughhetee,B. Veenstra,Gunther Haller,M. Chiu,M. Tarka,W. M. Fairbank,Jochen M. Schneider,Shu Li,L. Darroch,T. Brunner,Y. Y. Ding,Sergio Ferrara,Ryan Killick,M. L. Di Vacri,J.P. Brodski,Petr Vogel,Qing Xia,Thilo Michel,A. Karelin,Y-R Yen,K. Murray,J. B. Zhao,U. Wichoski,Y. Ito,T. Stiegler,A. Larson,Eric W. Hoppe,Martin Ward,F. Bourque,A. Iverson,C.J. Kenney,K. Spitaels,M. Wagenpfeil,R. Gornea,Wei Wei,D. A. Harris,Douglas H Beck,M. J. Dolinski,J. Dalmasson,Alexis G. Schubert,F. Nolet,S. Feyzbakhsh,John L. Orrell,A. House,Cory T. Overman,Gerard Visser,Lorenzo Fabris,J. Todd,Venkatesh Veeraraghavan,Gabriele Giacomini,T. Rossignol,A.C. Odian,K. S. Kumar,Z. Li,A. Burenkov,D. Fairbank,K. McFarlane,I. J. Arnquist,S. Delaquis,O. Njoya,C. Licciardi,Veljko Radeka,T. Tolba,V.N. Stekhanov,J. Farine,Ethan Brown,Giorgio Gratta,E. Raguzin,P. S. Barbeau,S. J. Daugherty,Jean-Francois Pratte,Serge A. Charlebois,A. E. Robinson,Skarpaas, K., Viii,G. St-Hilaire,F. Retiere,M. Hughes,Tung T. Nguyen,X. S. Jiang,R.J. Newby,David Danovitch,T. I. Totev,P. C. Rowson,A. Kuchenkov,G. Gallina,M. Alfaris,P. Hufschmidt,J. Watkins,A. Craycraft,C. Chambers,L. J. Kaufman,Guofu Cao,G. Li,M. Côté,Gisela Anton,M. K. Moe,M. Heffner,J. Segal,Marc Weber,O. Zeldovich,T. Tsang,Rejean Fontaine,Y. Lan,I. Ostrovskiy,S. Parent,Liangjian Wen,Aldo Pena-Perez,V. A. Belov,Jens Dilling,Angelo Dragone,J.-L. Vuilleumier,Wei Wu,Triveni Rao,R. MacLellan,Samuele Sangiorgio,D. Kodroff,E. V. Hansen,Maulik R. Patel,F. Vachon,C. Jessiman,A. Pocar,W. R. Cen,C.M. Lewis,David Moore,A. Der Mesrobian-Kabakian,M. Coon,David A. Sinclair,R. Conley,R. Krücken,Jasmine Hasi,J. Echevers,T. Ziegler,B. G. Lenardo,Thomas Koffas,T. Bhatta,B. Mong,Liang Yang,S. X. Wu,G. S. Ortega,I. Badhrees,R. Tsang,X. Zhang,Justin Albert,N. Roy,S. Rescia,Peter Fierlinger,B. T. Cleveland,M. J. Jewell,T. Daniels,O. Nusair,Zhijun Ning,David Leonard,Arun Kumar Soma,M. Oriunno,S. Schmidt,J. Runge,Pengpeng Lv,X.L. Sun,A. Jamil,A. Piepke,D. Fudenberg,Gerrit Wrede +168 more
TL;DR: The projected performance and detector configuration of nEXO are described in this pre-Conceptual Design Report (pCDR) in this article, with a projected half-life sensitivity of approximately $10^{28}$ years.