T
T. Binder
Researcher at University of South Dakota
Publications - 12
Citations - 1186
T. Binder is an academic researcher from University of South Dakota. The author has contributed to research in topics: Dark matter & Cryogenic Dark Matter Search. The author has an hindex of 10, co-authored 12 publications receiving 788 citations.
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Journal ArticleDOI
First Dark Matter Constraints from a SuperCDMS Single-Charge Sensitive Detector.
R. Agnese,T. Aralis,Tsuguo Aramaki,I. J. Arnquist,E. Azadbakht,W. Baker,S. Banik,D. Barker,D. A. Bauer,T. Binder,M. A. Bowles,P. L. Brink,R. Bunker,Blas Cabrera,R. Calkins,C. Cartaro,David G. Cerdeño,David G. Cerdeño,Yu Kai Chang,Jodi Cooley,B. Cornell,P. Cushman,P. Di Stefano,T. Doughty,E. Fascione,Enectali Figueroa-Feliciano,C. W. Fink,Matthew Fritts,G. Gerbier,R. Germond,M. Ghaith,Sunil Golwala,H. R. Harris,Ziqing Hong,Eric W. Hoppe,L. Hsu,Martin E. Huber,V. Iyer,D. Jardin,Chitrasen Jena,M. H. Kelsey,A. Kennedy,A. Kubik,Noah Kurinsky,Ruth Lawrence,J. V. Leyva,J. V. Leyva,B. Loer,E. Lopez Asamar,P. Lukens,D. MacDonell,D. MacDonell,R. Mahapatra,Vuk Mandic,N. Mast,E. H. Miller,N. Mirabolfathi,Bedangadas Mohanty,J. D. Morales Mendoza,J. K. Nelson,John L. Orrell,S. M. Oser,S. M. Oser,W. A. Page,W. A. Page,R. Partridge,M. Pepin,A. Phipps,Fernando Ponce,S. S. Poudel,Matt Pyle,H. Qiu,W. Rau,A. Reisetter,T. Reynolds,Amy Roberts,A. E. Robinson,H. E. Rogers,R. K. Romani,Tarek Saab,Bernard Sadoulet,Bernard Sadoulet,J. Sander,A. Scarff,A. Scarff,R. W. Schnee,S. Scorza,Kartik Senapati,B. Serfass,J. So,Danielle Speller,C. Stanford,M. Stein,J. Street,Hiromasa Tanaka,D. Toback,R. Underwood,A. N. Villano,B. von Krosigk,B. von Krosigk,S. L. Watkins,John Wilson,M. J. Wilson,J. Winchell,D. H. Wright,S. J. Yellin,Betty A. Young,Betty A. Young,X. Zhang,Xingbo Zhao +109 more
TL;DR: These first limits on inelastic electron-scattering dark matter and dark photon absorption are presented using a prototype SuperCDMS detector having a charge resolution of 0.1 electron-hole pairs and demonstrated a sensitivity to dark photons competitive with other leading approaches but using substantially less exposure.
Journal ArticleDOI
Low-mass dark matter search with CDMSlite
R. Agnese,Adam Anderson,T. Aralis,Tsuguo Aramaki,I. J. Arnquist,W. Baker,D. Balakishiyeva,D. Barker,R. Basu Thakur,D. A. Bauer,T. Binder,M. A. Bowles,P. L. Brink,R. Bunker,Blas Cabrera,David O. Caldwell,R. Calkins,C. Cartaro,David G. Cerdeño,Yu Kai Chang,H. Chagani,Yi Chen,Jodi Cooley,B. Cornell,P. Cushman,Miguel Daal,P. Di Stefano,T. Doughty,L. Esteban,E. Fascione,Enectali Figueroa-Feliciano,Matthew Fritts,G. Gerbier,M. Ghaith,G.L. Godfrey,Sunil Golwala,J. Hall,H. R. Harris,Ziqing Hong,Eric W. Hoppe,L. Hsu,Martin E. Huber,V. Iyer,D. Jardin,A. Jastram,Chitrasen Jena,M. H. Kelsey,A. Kennedy,A. Kubik,Noah Kurinsky,A. Leder,B. Loer,E. Lopez Asamar,P. Lukens,D. MacDonell,R. Mahapatra,Vuk Mandic,N. Mast,E. H. Miller,N. Mirabolfathi,Robert A. Moffatt,Bedangadas Mohanty,J. D. Morales Mendoza,J. K. Nelson,John L. Orrell,S. M. Oser,K. L. Page,W. A. Page,R. Partridge,M. Pepin,M. Peñalver Martinez,A. Phipps,S. S. Poudel,Matt Pyle,H. Qiu,W. Rau,P. Redl,A. Reisetter,T. Reynolds,Amy Roberts,A. E. Robinson,H. E. Rogers,Tarek Saab,Bernard Sadoulet,J. Sander,K. Schneck,R. W. Schnee,S. Scorza,Kartik Senapati,B. Serfass,Danielle Speller,M. Stein,J. Street,Hiromasa Tanaka,D. Toback,R. Underwood,A. N. Villano,B. von Krosigk,B. Welliver,John Wilson,M. J. Wilson,D. H. Wright,S. J. Yellin,J. J. Yen,Betty A. Young,X. Zhang,Xingbo Zhao +106 more
TL;DR: The SuperCDMS experiment at the Soudan Underground Laboratory was designed to directly detect weakly interacting massive particles (WIMPs) that may constitute the dark matter in our Galaxy as discussed by the authors.
Journal ArticleDOI
Results from the Super Cryogenic Dark Matter Search Experiment at Soudan.
R. Agnese,Tsuguo Aramaki,I. J. Arnquist,W. Baker,D. Balakishiyeva,S. Banik,D. Barker,R. Basu Thakur,R. Basu Thakur,D. A. Bauer,T. Binder,M. A. Bowles,P. L. Brink,R. Bunker,Blas Cabrera,D. O. Caldwell,R. Calkins,C. Cartaro,David G. Cerdeño,David G. Cerdeño,Yu Kai Chang,Yi Chen,Jodi Cooley,B. Cornell,P. Cushman,Miguel Daal,P. Di Stefano,T. Doughty,E. Fascione,Enectali Figueroa-Feliciano,Matthew Fritts,G. Gerbier,R. Germond,M. Ghaith,G. Godfrey,Sunil Golwala,J. Hall,H. R. Harris,Ziqing Hong,Eric W. Hoppe,L. Hsu,Martin E. Huber,V. Iyer,D. Jardin,A. Jastram,Chitrasen Jena,M. H. Kelsey,A. Kennedy,A. Kubik,Noah Kurinsky,B. Loer,E. Lopez Asamar,P. Lukens,D. MacDonell,D. MacDonell,R. Mahapatra,Vuk Mandic,N. Mast,E. H. Miller,N. Mirabolfathi,Bedangadas Mohanty,J. D. Morales Mendoza,J. K. Nelson,John L. Orrell,S. M. Oser,S. M. Oser,K. L. Page,W. A. Page,W. A. Page,R. Partridge,M. Peñalver Martinez,M. Pepin,A. Phipps,S. S. Poudel,Matt Pyle,H. Qiu,W. Rau,P. Redl,A. Reisetter,T. Reynolds,Amy Roberts,A. E. Robinson,H. E. Rogers,Tarek Saab,Bernard Sadoulet,Bernard Sadoulet,J. Sander,K. Schneck,R. W. Schnee,S. Scorza,Kartik Senapati,B. Serfass,Danielle Speller,M. Stein,J. Street,Hiromasa Tanaka,D. Toback,R. Underwood,A. N. Villano,B. von Krosigk,B. von Krosigk,B. Welliver,John Wilson,M. J. Wilson,D. H. Wright,S. J. Yellin,J. J. Yen,Betty A. Young,X. Zhang,Xingbo Zhao +109 more
TL;DR: A blinded search for weakly interacting massive particles (WIMPs) using the majority of the SuperCDMS Soudan data set finds a single candidate event, setting the strongest limits for WIMP-germanium-nucleus interactions for masses >12 GeV/c^{2}.
Journal ArticleDOI
Constraints on low-mass, relic dark matter candidates from a surface-operated SuperCDMS single-charge sensitive detector
D. W. P. Amaral,T. Aralis,Tsuguo Aramaki,I. J. Arnquist,E. Azadbakht,S. Banik,D. Barker,C. Bathurst,D. A. Bauer,L. V. S. Bezerra,L. V. S. Bezerra,R. Bhattacharyya,T. Binder,M. A. Bowles,P. L. Brink,R. Bunker,Blas Cabrera,R. Calkins,R. A. Cameron,C. Cartaro,David G. Cerdeño,David G. Cerdeño,Yu Kai Chang,R. Chen,N. Chott,Jodi Cooley,H. Coombes,J. Corbett,P. Cushman,F. De Brienne,M. L. di Vacri,M. Diamond,E. Fascione,E. Fascione,Enectali Figueroa-Feliciano,C. W. Fink,K. Fouts,Matthew Fritts,G. Gerbier,R. Germond,R. Germond,M. Ghaith,Sunil Golwala,H. R. Harris,N. Herbert,B. A. Hines,M. I. Hollister,Ziqing Hong,Eric W. Hoppe,L. Hsu,Martin E. Huber,V. Iyer,D. Jardin,A. Jastram,M. H. Kelsey,A. Kubik,Noah Kurinsky,Ruth Lawrence,A. Li,A. Li,Ben Loer,E. Lopez Asamar,P. Lukens,D. MacDonell,D. MacDonell,D. B. MacFarlane,R. Mahapatra,Vuk Mandic,N. Mast,A. J. Mayer,M. Michaud,E. Michielin,E. Michielin,N. Mirabolfathi,Bedangadas Mohanty,J. D. Morales Mendoza,S. Nagorny,J. K. Nelson,H. Neog,V. Novati,John L. Orrell,S. M. Oser,S. M. Oser,W. A. Page,P. Pakarha,R. Partridge,R. Podviianiuk,Fernando Ponce,S. S. Poudel,Matt Pyle,W. Rau,E. Reid,R. Ren,T. Reynolds,Amy Roberts,A. E. Robinson,H. E. Rogers,Tarek Saab,Bernard Sadoulet,Bernard Sadoulet,J. Sander,A. Sattari,R. W. Schnee,S. Scorza,Bruno Serfass,D. J. Sincavage,C. Stanford,M. Stein,J. Street,D. Toback,R. Underwood,R. Underwood,Seema Verma,A. N. Villano,B. von Krosigk,S. L. Watkins,L. Wills,John Wilson,M. J. Wilson,M. J. Wilson,J. Winchell,Douglas Wright,S. J. Yellin,Betty A. Young,To Chin Yu,E. Zhang,H. G. Zhang,Xingbo Zhao,L. Zheng +128 more
TL;DR: In this article, the authors present an analysis and the resulting limits on light dark matter inelastically scattering off of electrons, and on dark photon and axion-like particle absorption, using a second-generation SuperCDMS high-voltage eV-resolution detector.
Journal ArticleDOI
Search for low-mass dark matter with CDMSlite using a profile likelihood fit
R. Agnese,T. Aralis,Tsuguo Aramaki,I. J. Arnquist,E. Azadbakht,W. Baker,S. Banik,D. Barker,D. A. Bauer,T. Binder,M. A. Bowles,P. L. Brink,R. Bunker,Blas Cabrera,R. Calkins,R. A. Cameron,C. Cartaro,David G. Cerdeño,Yu Kai Chang,Jodi Cooley,B. Cornell,P. Cushman,F. De Brienne,T. Doughty,E. Fascione,Enectali Figueroa-Feliciano,C. W. Fink,Matthew Fritts,G. Gerbier,R. Germond,M. Ghaith,Sunil Golwala,H. R. Harris,N. Herbert,Ziqing Hong,Eric W. Hoppe,L. Hsu,M. E. Huber,V. Iyer,D. Jardin,A. Jastram,Chitrasen Jena,M. H. Kelsey,A. Kennedy,A. Kubik,Noah Kurinsky,Ruth Lawrence,Ben Loer,E. Lopez Asamar,P. Lukens,D. MacDonell,R. Mahapatra,Vuk Mandic,N. Mast,E. H. Miller,N. Mirabolfathi,Bedangadas Mohanty,J. D. Morales Mendoza,J. K. Nelson,H. Neog,John L. Orrell,S. M. Oser,W. A. Page,R. Partridge,M. Pepin,Fernando Ponce,S. S. Poudel,Matt Pyle,H. Qiu,W. Rau,A. Reisetter,R. Ren,T. Reynolds,Amy Roberts,A. E. Robinson,H. E. Rogers,Tarek Saab,Bernard Sadoulet,J. Sander,A. Scarff,R. W. Schnee,S. Scorza,Kartik Senapati,Bruno Serfass,Danielle Speller,C. Stanford,M. Stein,J. Street,Hiromasa Tanaka,D. Toback,R. Underwood,A. N. Villano,B. von Krosigk,S. L. Watkins,John Wilson,M. J. Wilson,J. Winchell,D. H. Wright,S. J. Yellin,Betty A. Young,X. Zhang,Xingbo Zhao +101 more
TL;DR: The Cryogenic Dark Matter Search low ionization threshold experiment (CDMSlite) as mentioned in this paper achieved an energy threshold of 70 eV and significantly improved the sensitivity for dark matter particles with masses between 2.5 and 10 GeV/c2 compared to previous analyses.