D
D. Carr
Researcher at Lawrence Livermore National Laboratory
Publications - 13
Citations - 413
D. Carr is an academic researcher from Lawrence Livermore National Laboratory. The author has contributed to research in topics: Fourier transform & Imaging spectrometer. The author has an hindex of 5, co-authored 13 publications receiving 390 citations.
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Journal ArticleDOI
The Large Underground Xenon (LUX) experiment
D. S. Akerib,X. Bai,S. Bedikian,Ethan Bernard,A. Bernstein,Alexander Bolozdynya,A. W. Bradley,D. Byram,Sidney Cahn,C. Camp,M. C. Carmona-Benitez,D. Carr,J.J. Chapman,A. A. Chiller,C. Chiller,K. Clark,T. Classen,T. Coffey,A. Curioni,E. Dahl,S. Dazeley,L. de Viveiros,A. Dobi,E. M. Dragowsky,E. Druszkiewicz,B. N. Edwards,C.H. Faham,S. Fiorucci,R. J. Gaitskell,K.R. Gibson,Murdock Gilchriese,C. R. Hall,M. Hanhardt,B. Holbrook,M. Ihm,R. G. Jacobsen,L. Kastens,K. Kazkaz,R. Knoche,S. Kyre,J. Kwong,R. L. Lander,N. A. Larsen,C. Lee,David Leonard,K. T. Lesko,A. Lindote,M.I. Lopes,A. Lyashenko,D.C. Malling,R. L. Mannino,Z. Marquez,Daniel McKinsey,Dongming Mei,J. Mock,M. Moongweluwan,M. Morii,H. N. Nelson,F. Neves,James Nikkel,M. Pangilinan,P.D. Parker,E. K. Pease,K. Pech,P. Phelps,A. Rodionov,P. Roberts,Alexander Shei,T. A. Shutt,C. Silva,W. Skulski,V. N. Solovov,C. Sofka,P. Sorensen,J. Spaans,T.M. Stiegler,D. Stolp,Robert Svoboda,M. Sweany,Matthew Szydagis,D. J. Taylor,J. Thomson,Mani Tripathi,S. Uvarov,J.R. Verbus,N. Walsh,R. C. Webb,D. White,J. T. White,T. J. Whitis,M. Wlasenko,F.L.H. Wolfs,M. Woods,Chao Zhang +93 more
TL;DR: The Large Underground Xenon (LUX) detector as mentioned in this paper is a dual-phase Xenon detector with a spin independent cross-section per nucleon of 2 × 10 − 46 cm 2, equivalent to ∼ 1 event / 100 kg / month in the inner 100-kg fiducial volume (FV) of the 370-kg detector.
Posted Content
Radio-assay of Titanium samples for the LUX Experiment
D. S. Akerib,K. T. Lesko,K. Kazkaz,J.R. Verbus,M. Sweany,D.C. Malling,P. Sorensen,F. L. H. Wolfs,A. Lyashenko,D. Carr,Dongming Mei,Matthew Szydagis,W. Skulski,Ethan Bernard,K.R. Gibson,T.M. Stiegler,J. Mock,Steven Dazeley,David Leonard,Daniel McKinsey,M. Wlasenko,N. A. Larsen,N. Walsh,C. Lee,R. C. Webb,C. H. Faham,S. Uvarov,E. Druszkiewicz,K. Clark,Sidney Cahn,M. C. Carmona-Benitez,Mani Tripathi,M. Ihm,M. Pangilinan,Adam Bernstein,M. Hanhardt,J. Spaans,B. Holbrook,James Nikkel,Chao Zhang,L. Kastens,A. R. Smith,R. Svoboda,T. Coffey,L. de Viveiros,R. G. Jacobsen,H. N. Nelson,R. L. Lander,M. Woods,M. R. Dragowsky,J. T. White,J.J. Chapman,R. L. Mannino,S. Bedikian,X. Bai,Y-D. Chan,P. Phelps,M. Morii,C. R. Hall,T. Classen,A. W. Bradley,T. A. Shutt,R. J. Gaitskell,J. Thomson,S. Fiorucci,P. D. Parker +65 more
TL;DR: Akerib et al. as discussed by the authors reported on the screening of samples of titanium metal for their radio-purity, which led to the selection of materials used in the construction of the cryostats for the Large Underground Xenon (LUX) dark matter experiment.
Journal ArticleDOI
The LUX prototype detector: Heat exchanger development
D. S. Akerib,X. Bai,S. Bedikian,A. Bernstein,Alexander Bolozdynya,A. W. Bradley,Sidney Cahn,D. Carr,J.J. Chapman,K. Clark,T. Classen,A. Curioni,C.E. Dahl,S. Dazeley,L. de Viveiros,M. R. Dragowsky,E. Druszkiewicz,S. Fiorucci,R. J. Gaitskell,C. R. Hall,C.H. Faham,B. Holbrook,L. Kastens,Kareem Kazkaz,J. Kwong,R. L. Lander,David Leonard,D.C. Malling,R. L. Mannino,Daniel McKinsey,Dongming Mei,J. Mock,M. Morii,James Nikkel,P. Phelps,T. A. Shutt,W. Skulski,P. Sorensen,J. Spaans,T. Steigler,Robert Svoboda,M. Sweany,J. Thomson,Mani Tripathi,N. Walsh,R. C. Webb,J. T. White,F.L.H. Wolfs,M. Woods,Chao Zhang +49 more
TL;DR: The Large Underground Xenon (LUX) detector is a two-phase Xenon Time Projection Chamber (TPC) designed to search for WIMP-nucleon dark mat as discussed by the authors.
Proceedings ArticleDOI
Visible Imaging Fourier Transform Spectrometer: Design and Calibration
Edward H. Wishnow,R.E. Wurtz,Sebastien Blais-Ouellette,Kem H. Cook,D. Carr,Isabella T. Lewis,Frédéric Grandmont,Christopher W. Stubbs +7 more
TL;DR: In this article, the authors present details of the design, operation and calibration of an astronomical visible-band imaging Fourier transform spectrometer (IFTS), which produces a spectrum for every pixel in the field of view where the spectral resolution is flexible.
Proceedings ArticleDOI
Gallery of datacubes obtained with the Livermore imaging Fourier transform spectrometer
R.E. Wurtz,Edward H. Wishnow,S. Blais-Ouellette,Kem H. Cook,Bradford P. Holden,Bradford P. Holden,D. Carr,Christopher W. Stubbs +7 more
TL;DR: In this paper, the Livermore visible-band imaging Fourier transform spectrometer at Apache Point Observatory was used to acquire spatial-spectral datacubes of astronomical objects, containing hundreds of thousands of spectral interferograms.