B
B. Broerman
Researcher at Queen's University
Publications - 34
Citations - 911
B. Broerman is an academic researcher from Queen's University. The author has contributed to research in topics: DEAP & Scintillation. The author has an hindex of 11, co-authored 22 publications receiving 696 citations.
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Journal ArticleDOI
Dark Matter Search Results from the Complete Exposure of the PICO-60 C$_3$F$_8$ Bubble Chamber
C. Amole,M. Ardid,I. J. Arnquist,D. M. Asner,D. Baxter,E. Behnke,M. Bressler,B. Broerman,G. Cao,Chujie Chen,U. Chowdhury,Karl J. Clark,J. I. Collar,P. S. Cooper,C. B. Coutu,C. Cowles,M. B. Crisler,G. Crowder,N. A. Cruz-Venegas,C. E. Dahl,Mala Das,S. Fallows,J. Farine,Ivan Felis,R. Filgas,F. Girard,G. Giroux,J. Hall,C. Hardy,O. Harris,T. Hillier,Eric W. Hoppe,C. M. Jackson,M. Jin,L. Klopfenstein,T. Kozynets,C. B. Krauss,M. Laurin,I. Lawson,A. Leblanc,Ilan Levine,C. Licciardi,W. H. Lippincott,B. Loer,F. Mamedov,P. Mitra,C. D. Moore,T. Nania,R. Neilson,A. J. Noble,P. Oedekerk,Amber M. Ortega,M.-C. Piro,A. Plante,R. Podviyanuk,Shashank Priya,A. E. Robinson,S. Sahoo,O. Scallon,Satyajit Seth,A. Sonnenschein,N. Starinski,I. Stekl,T. Sullivan,F. Tardif,E. Vázquez-Jáuregui,N. Walkowski,E. Weima,U. Wichoski,K. Wierman,Yongke Yan,V. Zacek,Jie Zhang +72 more
TL;DR: The PICO Collaboration as discussed by the authors has been supported by the Canada Foundation for Innovation and the Province of Ontario Ministry of Research and Innovation, with underground access provided by Vale at the Creighton mine site.
Journal ArticleDOI
Search for dark matter with a 231-day exposure of liquid argon using DEAP-3600 at SNOLAB
R. Ajaj,P. Amaudruz,G. R. Araujo,M. Baldwin,M. Batygov,B. Beltran,C. E. Bina,J. Bonatt,Mark Guy Boulay,B. Broerman,J. F. Bueno,P. M. Burghardt,A. Butcher,Bei Cai,Stefano Cavuoti,Min Chen,Y. Chen,B. T. Cleveland,D. Cranshaw,K. Dering,J. DiGioseffo,Luca Doria,F. A. Duncan,M. Dunford,A. Erlandson,N. Fatemighomi,G. Fiorillo,S. Florian,A. Flower,R. J. Ford,R. Gagnon,D. Gallacher,E. A. Garcés,S. Garg,P. Giampa,D. Goeldi,V. V. Golovko,P. Gorel,K. Graham,Darren Grant,A. L. Hallin,M. Hamstra,P. J. Harvey,C. Hearns,A. Joy,C. Jillings,O. Kamaev,G. Kaur,A. Kemp,I. Kochanek,M. Kuźniak,S. Langrock,F. La Zia,B. Lehnert,Xiujiang Li,J. Lidgard,T. Lindner,O. Litvinov,J. Lock,Giuseppe Longo,Peter Majewski,A. B. McDonald,T. McElroy,T. McGinn,J. B. McLaughlin,R. Mehdiyev,C. Mielnichuk,Jocelyn Monroe,P. Nadeau,C. M. Nantais,C. Ng,A. J. Noble,E. O'Dwyer,C. Ouellet,P. Pasuthip,S. J. M. Peeters,M. C. Piro,T. Pollmann,E. T. Rand,C. Rethmeier,F. Retiere,N. Seeburn,K. Singhrao,P. Skensved,B. C. Smith,N. J. T. Smith,T. Sonley,J. Soukup,R. Stainforth,C. Stone,V. Strickland,Bhaskar Sur,J. Tang,E. Vázquez-Jáuregui,Laurelle Maria Veloce,S. Viel,J. Walding,M. Waqar,Martin Ward,S. Westerdale,J. Willis,A. Zuñiga-Reyes +101 more
TL;DR: DEAP-3600 is a single-phase liquid argon (LAr) direct-detection dark matter experiment, operating 2 km underground at SNOLAB (Sudbury, Canada) as discussed by the authors.
Journal ArticleDOI
Measurement of the scintillation time spectra and pulse-shape discrimination of low-energy β and nuclear recoils in liquid argon with DEAP-1
P. Amaudruz,M. Batygov,B. Beltran,J. Bonatt,K. Boudjemline,Mark Guy Boulay,Mark Guy Boulay,B. Broerman,J. F. Bueno,A. Butcher,Bei Cai,T. S. Caldwell,Min Chen,R. Chouinard,B. T. Cleveland,D. Cranshaw,K. Dering,F. Duncan,N. Fatemighomi,R. Ford,R. Gagnon,P. Giampa,F. Giuliani,M. Gold,V. V. Golovko,P. Gorel,E. Grace,K. Graham,Darren Grant,R. H. Hakobyan,A. L. Hallin,M. Hamstra,P. J. Harvey,C. Hearns,J. Hofgartner,C. J. Jillings,M. Kuźniak,I. Lawson,F. La Zia,O. Li,J. Lidgard,P. Liimatainen,W. H. Lippincott,R. Mathew,A. B. McDonald,T. McElroy,K. W. McFarlane,Daniel McKinsey,R. Mehdiyev,Jocelyn Monroe,A. Muir,C. Nantais,K. Nicolics,James Nikkel,A. J. Noble,E. O'Dwyer,K. S. Olsen,C. Ouellet,P. Pasuthip,S. J. M. Peeters,T. Pollmann,W. Rau,F. Retiere,M. Ronquest,N. Seeburn,P. Skensved,B. Smith,T. Sonley,J. Tang,E. Vázquez-Jáuregui,Laurelle Maria Veloce,J. Walding,Martin Ward +72 more
TL;DR: In this article, the DEAP-1 low-background liquid argon detector was used to measure scintillation pulse shapes of electron and nuclear recoil events and to demonstrate the feasibility of pulse-shape discrimination (PSD) down to an electron-equivalent energy of 20 keV.
Journal ArticleDOI
First results from the DEAP-3600 dark matter search with argon at SNOLAB
P. Amaudruz,M. Baldwin,M. Batygov,B. Beltran,C. E. Bina,D. Bishop,J. Bonatt,Gary Boorman,Mark Guy Boulay,B. Broerman,T. Bromwich,J. F. Bueno,P. M. Burghardt,A. Butcher,Bei Cai,Stephen Kam-wah Chan,Min Chen,R. Chouinard,B. T. Cleveland,D. Cranshaw,K. Dering,J. DiGioseffo,S. Dittmeier,F. Duncan,Monica Dunford,A. Erlandson,N. Fatemighomi,S. Florian,A. Flower,R. Ford,R. Gagnon,P. Giampa,V. V. Golovko,P. Gorel,R. Gornea,E. Grace,K. Graham,E. Gulyev,R. H. Hakobyan,A. Hall,A. L. Hallin,M. Hamstra,P. J. Harvey,C. Hearns,C. J. Jillings,O. Kamaev,A. Kemp,M. Kuźniak,S. Langrock,F. La Zia,B. Lehnert,J. Lidgard,C. Lim,T. Lindner,Y. Linn,Shuai Liu,P. Majewski,R. Mathew,A. B. McDonald,T. McElroy,T. McGinn,J. B. McLaughlin,S. Mead,R. Mehdiyev,C. Mielnichuk,Jocelyn Monroe,A. Muir,P. Nadeau,C. Nantais,C. Ng,A. J. Noble,E. O'Dwyer,C. Ohlmann,K. Olchanski,K. S. Olsen,C. Ouellet,P. Pasuthip,S. J. M. Peeters,T. Pollmann,E. T. Rand,W. Rau,C. Rethmeier,F. Retiere,N. Seeburn,B. Shaw,K. Singhrao,P. Skensved,B. Smith,N. J. T. Smith,T. Sonley,J. Soukup,R. Stainforth,C. Stone,V. Strickland,Bhaskar Sur,J. Tang,Joanne Taylor,Laurelle Maria Veloce,E. Vázquez-Jáuregui,J. Walding,Martin Ward,S. Westerdale,E. Woolsey,J. Zielinski +103 more
TL;DR: The first results of a direct dark matter search with the DEAP-3600 single-phase liquid argon (LAr) detector are reported, which results in the leading limit on weakly interacting massive particle (WIMP)-nucleon spin-independent cross section on argon.
Journal ArticleDOI
Design and construction of the DEAP-3600 dark matter detector
P. Amaudruz,M. Baldwin,M. Batygov,B. Beltran,C. E. Bina,D. Bishop,J. Bonatt,Gary Boorman,Mark Guy Boulay,Mark Guy Boulay,B. Broerman,T. Bromwich,J. F. Bueno,P. M. Burghardt,A. Butcher,Bei Cai,Stephen Kam-wah Chan,Min Chen,R. Chouinard,S. Churchwell,B. T. Cleveland,D. Cranshaw,K. Dering,J. DiGioseffo,S. Dittmeier,F. Duncan,Monica Dunford,A. Erlandson,A. Erlandson,N. Fatemighomi,S. Florian,A. Flower,R. Ford,R. Gagnon,P. Giampa,V. V. Golovko,P. Gorel,P. Gorel,R. Gornea,E. Grace,K. Graham,Darren Grant,E. Gulyev,A. Hall,A. L. Hallin,M. Hamstra,M. Hamstra,P. J. Harvey,C. Hearns,C. J. Jillings,O. Kamaev,A. Kemp,M. Kuźniak,M. Kuźniak,S. Langrock,F. La Zia,B. Lehnert,O. Li,J. Lidgard,P. Liimatainen,C. Lim,T. Lindner,Y. Linn,Shuai Liu,Peter Majewski,R. Mathew,A. B. McDonald,T. McElroy,K. W. McFarlane,T. McGinn,J. B. McLaughlin,S. Mead,R. Mehdiyev,C. Mielnichuk,Jocelyn Monroe,A. Muir,P. Nadeau,C. Nantais,C. Ng,A. J. Noble,E. O'Dwyer,C. Ohlmann,K. Olchanski,K. S. Olsen,C. Ouellet,P. Pasuthip,S. J. M. Peeters,T. Pollmann,T. Pollmann,T. Pollmann,E. T. Rand,W. Rau,C. Rethmeier,F. Retiere,N. Seeburn,B. Shaw,K. Singhrao,K. Singhrao,P. Skensved,B. Smith,N. J. T. Smith,T. Sonley,J. Soukup,R. Stainforth,C. Stone,V. Strickland,V. Strickland,Bhaskar Sur,J. Tang,Joanne Taylor,Laurelle Maria Veloce,E. Vázquez-Jáuregui,E. Vázquez-Jáuregui,J. Walding,Martin Ward,S. Westerdale,Randall White,E. Woolsey,J. Zielinski +118 more
TL;DR: The Dark Matter Experiment using Argon Pulse-shape discrimination (DEAP) has been designed for a direct detection search for particle dark matter using a single-phase liquid argon target as mentioned in this paper, and the projected cross section sensitivity for DEAP-3600 to the spin-independent scattering of Weakly Interacting Massive Particles (WIMPs) on nucleons is 10−46cm2 for a 100 GeV/c2 WIMP mass with a fiducial exposure of 3 tonne-years.