D
D. J. Taylor
Researcher at University of California, Berkeley
Publications - 63
Citations - 8689
D. J. Taylor is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Dark matter & WIMP. The author has an hindex of 28, co-authored 59 publications receiving 7648 citations.
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Journal ArticleDOI
3D modeling of electric fields in the LUX detector
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,Adam Bernstein,T. P. Biesiadzinski,T. P. Biesiadzinski,T. P. Biesiadzinski,E. M. Boulton,E. M. Boulton,P. Brás,D. Byram,Sidney Cahn,M. C. Carmona-Benitez,M. C. Carmona-Benitez,C. Chan,A. Currie,J. E. Cutter,T. J. R. Davison,A. Dobi,E. Druszkiewicz,B. N. Edwards,S. R. Fallon,A. Fan,A. Fan,S. Fiorucci,S. Fiorucci,R. J. Gaitskell,J. Genovesi,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,Kareem Kazkaz,D. Khaitan,R. Knoche,N. A. Larsen,B. G. Lenardo,B. G. Lenardo,K. T. Lesko,A. Lindote,M.I. Lopes,A. Manalaysay,R. L. Mannino,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,C. Rhyne,S. Shaw,S. Shaw,T. A. Shutt,T. A. Shutt,C. Silva,M. Solmaz,V. N. Solovov,P. Sorensen,T. J. Sumner,Matthew Szydagis,D. J. Taylor,W. C. Taylor,B. P. Tennyson,P. A. Terman,D. R. Tiedt,W. H. To,W. H. To,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 +124 more
TL;DR: Akerib et al. as mentioned in this paper developed a 3D electric field model for the LUX detector, which is used to detect weakly interacting massive particles (WIMPs).
Journal ArticleDOI
Chromatographic separation of radioactive noble gases from xenon
D. S. Akerib,D. S. Akerib,D. S. Akerib,Henrique Araujo,X. Bai,A. J. Bailey,J. Balajthy,P. Beltrame,Ethan Bernard,A. Bernstein,T. P. Biesiadzinski,T. P. Biesiadzinski,T. P. Biesiadzinski,E. M. Boulton,R. Bramante,R. Bramante,R. Bramante,Sidney Cahn,M. C. Carmona-Benitez,C. Chan,A.A. Chiller,C. Chiller,T. Coffey,A. Currie,J. E. Cutter,T. J. R. Davison,A. Dobi,J. E. Y. Dobson,E. Druszkiewicz,B. N. Edwards,C. H. Faham,S. Fiorucci,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,S. A. Hertel,D. P. Hogan,M. Horn,M. Horn,D. Q. Huang,C. M. Ignarra,C. M. Ignarra,M. Ihm,R.G. Jacobsen,W. Ji,W. Ji,W. Ji,K. Kamdin,K. Kazkaz,D. Khaitan,R. Knoche,N.A. Larsen,C. Lee,C. Lee,C. 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,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. O’Sullivan,K. O’Sullivan,K. C. Oliver-Mallory,K. J. Palladino,K. J. Palladino,K. J. Palladino,E. K. Pease,K. Pech,P. Phelps,L. Reichhart,C. Rhyne,S. Shaw,T. A. Shutt,T. A. Shutt,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,W. H. To,W. H. To,Mani Tripathi,L. Tvrznikova,S. Uvarov,J.R. Verbus,R. C. Webb,J. T. White,T. J. Whitis,T. J. Whitis,T. J. Whitis,Michael S. Witherell,F.L.H. Wolfs,K. Yazdani,Sarah Young,Chao Zhang +123 more
TL;DR: The Large Underground Xenon (LUX) experiment operates at the Sanford Underground Research Facility to detect nuclear recoils from the hypothetical Weakly Interacting Massive Particles (WIMPs) on a liquid xenon target as discussed by the authors.
Journal ArticleDOI
Position Reconstruction in LUX
D. S. Akerib,S. Alsum,Henrique Araujo,X. Bai,A. J. Bailey,J. Balajthy,P. Beltrame,Ethan Bernard,Adam Bernstein,T. P. Biesiadzinski,E. M. Boulton,P. Brás,D. Byram,Sidney Cahn,M. C. Carmona-Benitez,C. Chan,A. Currie,J. E. Cutter,T. J. R. Davison,A. Dobi,E. Druszkiewicz,Blair Edwards,S. R. Fallon,A. Fan,S. Fiorucci,R. J. Gaitskell,J. Genovesi,C. Ghag,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,R. G. Jacobsen,W. Ji,K. Kamdin,K. Kazkaz,D. Khaitan,R. Knoche,N. A. Larsen,B. G. Lenardo,K. T. Lesko,A. Lindote,M.I. Lopes,A. Manalaysay,R. L. Mannino,M. F. Marzioni,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. C. Oliver-Mallory,K. J. Palladino,E. K. Pease,C. Rhyne,S. Shaw,T. A. Shutt,C. Silva,M. Solmaz,V. N. Solovov,P. Sorensen,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,V. Velan,J.R. Verbus,R. C. Webb,J. T. White,T. J. Whitis,Michael S. Witherell,F.L.H. Wolfs,Jilei Xu,K. Yazdani,Sarah Young,Chao Zhang +92 more
TL;DR: In this paper, the authors used an iterative method to recover the photomultiplier tube (PMT) light response directly from the calibration data using a two dimensional functional form to account for the photons reflected on the inner walls of the detector.
Journal ArticleDOI
Extending light WIMP searches to single scintillation photons in LUX
D. S. Akerib,S. Alsum,Henrique Araujo,X. Bai,J. Balajthy,A. Baxter,P. Beltrame,Ethan Bernard,Adam Bernstein,T. P. Biesiadzinski,E. M. Boulton,B. Boxer,P. Brás,Sergey Burdin,D. Byram,M. C. Carmona-Benitez,C. Chan,J. E. Cutter,L. de Viveiros,E. Druszkiewicz,S. R. Fallon,A. Fan,S. Fiorucci,R. J. Gaitskell,J. Genovesi,C. Ghag,M. G. D. Gilchriese,Carl Gwilliam,C. R. Hall,S. J. Haselschwardt,S. A. Hertel,D. P. Hogan,M. Horn,D. Q. Huang,C. M. Ignarra,R. G. Jacobsen,O. Jahangir,W. Ji,K. Kamdin,K. Kazkaz,D. Khaitan,Elena Korolkova,S. Kravitz,V. A. Kudryavtsev,E. Leason,B. G. Lenardo,K. T. Lesko,J. Liao,J. Lin,A. Lindote,M.I. Lopes,B. Lopez Paredes,A. Manalaysay,R. L. Mannino,N. Marangou,M. F. Marzioni,Daniel McKinsey,Dongming Mei,M. Moongweluwan,J. A. Morad,A. St. J. Murphy,A. Naylor,C. Nehrkorn,H. N. Nelson,F. Neves,A. Nilima,K. C. Oliver-Mallory,K. J. Palladino,E. K. Pease,Q. Riffard,G. R. C. Rischbieter,C. Rhyne,P. Rossiter,S. Shaw,T. A. Shutt,Catarina Silva,M. Solmaz,V. N. Solovov,P. Sorensen,T. J. Sumner,Matthew Szydagis,D. J. Taylor,Robert A. Taylor,W. C. Taylor,B. P. Tennyson,P. A. Terman,D. R. Tiedt,W. H. To,Mani Tripathi,L. Tvrznikova,U. Utku,S. Uvarov,Antonin Vacheret,V. Velan,R. C. Webb,J. T. White,T. J. Whitis,Michael S. Witherell,F. L. H. Wolfs,D. Woodward,Jilei Xu,Chao Zhang +101 more
TL;DR: In this paper, the authors exploit the double photoelectron emission effect observed in some photomultiplier models at vacuum ultraviolet wavelengths to lower the energy threshold of liquid xenon time projection chambers.
Journal ArticleDOI
3D Modeling of Electric Fields in the LUX Detector
D. S. Akerib,S. Alsum,Henrique Araujo,X. Bai,A. J. Bailey,J. Balajthy,P. Beltrame,Ethan Bernard,Adam Bernstein,T. P. Biesiadzinski,E. M. Boulton,P. Brás,D. Byram,Sidney Cahn,M. C. Carmona-Benitez,C. Chan,A. Currie,J. E. Cutter,T. J. R. Davison,A. Dobi,E. Druszkiewicz,Blair Edwards,S. R. Fallon,A. Fan,S. Fiorucci,R. J. Gaitskell,J. Genovesi,C. Ghag,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,R. G. Jacobsen,W. Ji,K. Kamdin,K. Kazkaz,D. Khaitan,R. Knoche,N. A. Larsen,B. G. Lenardo,K. T. Lesko,A. Lindote,M.I. Lopes,A. Manalaysay,R. L. Mannino,M. F. Marzioni,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. C. Oliver-Mallory,K. J. Palladino,E. K. Pease,C. Rhyne,S. Shaw,T. A. Shutt,C. Silva,M. Solmaz,V. N. Solovov,P. Sorensen,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,V. Velan,J.R. Verbus,R. C. Webb,J. T. White,T. J. Whitis,Michael S. Witherell,F.L.H. Wolfs,Jilei Xu,K. Yazdani,Sarah Young,Chao Zhang +92 more
TL;DR: In this paper, the authors developed a 3D electric field model for the LUX detector during two periods of searching for weakly interacting massive particle (WIMP) searches.