I
I. Lawson
Researcher at Laurentian University
Publications - 10
Citations - 1222
I. Lawson is an academic researcher from Laurentian University. The author has contributed to research in topics: Neutron & Dark matter. The author has an hindex of 7, co-authored 10 publications receiving 1095 citations.
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Journal ArticleDOI
Dark Matter Search Results from the PICO-2L C3F8 Bubble Chamber.
C. Amole,Miguel Ardid,David M. Asner,D. Baxter,E. Behnke,P. S. Bhattacharjee,H. Borsodi,M. Bou-Cabo,S. J. Brice,Daniel Broemmelsiek,K. Clark,J. I. Collar,P. S. Cooper,M. Crisler,C. E. Dahl,C. E. Dahl,S. Daley,Madhusmita Das,F. Debris,N. Dhungana,J. Farine,Ivan Felis,R. Filgas,M. Fines-Neuschild,Francoise Girard,G. Giroux,M. Hai,J. Hall,O. Harris,C. M. Jackson,M. Jin,C. B. Krauss,M. Lafrenière,M. Laurin,I. Lawson,I. Levine,W. H. Lippincott,E. Mann,J. P. Martin,Deepam Maurya,Pitam Mitra,R. Neilson,R. Neilson,A. J. Noble,A. Plante,R. B. Podviianiuk,Shashank Priya,A. E. Robinson,M. Ruschman,O. Scallon,O. Scallon,S. Seth,Andrew Sonnenschein,N. Starinski,I. Stekl,E. Vázquez-Jáuregui,E. Vázquez-Jáuregui,J. Wells,U. Wichoski,V. Zacek,Jie Zhang +60 more
TL;DR: These data provide the most sensitive direct detection constraints on WIMP-proton spin-dependent scattering to date, with significant sensitivity at low W IMP masses for spin-independent WIMp-nucleon scattering.
Journal ArticleDOI
Current Status and Future Prospects of the SNO+ Experiment
S. Andringa,E. Arushanova,S. Asahi,M. Askins,D. J. Auty,A. R. Back,Z. Barnard,N. Barros,E. W. Beier,A. Bialek,S. D. Biller,E. Blucher,R. Bonventre,D. Braid,E. Caden,E. J. Callaghan,J. Caravaca,J. Caravaca,João Carvalho,L. Cavalli,D. Chauhan,D. Chauhan,M. L. Chen,O. Chkvorets,Karl J. Clark,B. T. Cleveland,I. T. Coulter,D. Cressy,X. Dai,C. Darrach,B. Davis-Purcell,Rehan Deen,M. M. Depatie,F.B. Descamps,F.B. Descamps,F. Di Lodovico,N. Duhaime,F. Duncan,J. Dunger,E. Falk,N. Fatemighomi,R. Ford,P. Gorel,C. Grant,S. Grullon,E. Guillian,A. L. Hallin,D. Hallman,S. Hans,J. Hartnell,P. J. Harvey,M. Hedayatipour,W. J. Heintzelman,R. L. Helmer,B. Hreljac,J. Hu,T. Iida,C. M. Jackson,C. M. Jackson,N. A. Jelley,C. J. Jillings,C. Jones,P. G. Jones,K. Kamdin,K. Kamdin,T. Kaptanoglu,J. Kaspar,Paul Keener,P. Khaghani,L. Kippenbrock,J. R. Klein,R. Knapik,J. Kofron,L. L. Kormos,S. Korte,C. Kraus,C. B. Krauss,K. Labe,I. Lam,C. Lan,B. J. Land,B. J. Land,S. Langrock,A. LaTorre,I. Lawson,G. Lefeuvre,E. J. Leming,J. Lidgard,X. Liu,Y. Liu,V. Lozza,S. Maguire,A. Maio,K. Majumdar,S. Manecki,J. Maneira,E. Marzec,A. Mastbaum,N. McCauley,A. B. McDonald,J. E. McMillan,P. Mekarski,C. Miller,Yuvraj Mohan,E. Mony,M. J. Mottram,V. M. Novikov,H. M. O'Keeffe,E. O'Sullivan,G. D. Orebi Gann,M. J. Parnell,S. J. M. Peeters,T. Pershing,Z. Petriw,G. Prior,J. C. Prouty,J. C. Prouty,Sarah Quirk,A. Reichold,Andrew Robertson,J. Rose,Richard Rosero,P. M. Rost,J. Rumleskie,M. A. Schumaker,M. H. Schwendener,D. Scislowski,J. Secrest,M. Seddighin,L. Segui,S. Seibert,T. Shantz,T. M. Shokair,L. Sibley,J. R. Sinclair,K. Singh,P. Skensved,A. Sörensen,T. Sonley,R. Stainforth,Matthew L Strait,M. Stringer,Robert Svoboda,J. Tatar,L. Tian,N. Tolich,J. Tseng,H. W. C. Tseung,R. Van Berg,E. Vázquez-Jáuregui,C. J. Virtue,B. von Krosigk,J. M.G. Walker,Mark Walker,O. Wasalski,J. Waterfield,Randall White,J. R. Wilson,T. J. Winchester,A. Wright,Minfang Yeh,T. Zhao,Kai Zuber +162 more
TL;DR: SNO+ is a large liquid scintillator-based experiment located 2 km underground at SNOLAB, Sudbury, Canada as mentioned in this paper, whose primary goal is a search for the neutrinoless double-beta decay (0BB) of 130Te.
Journal ArticleDOI
Current Status and Future Prospects of the SNO+ Experiment
S. Andringa,E. Arushanova,S. Asahi,M. Askins,D. J. Auty,A. Back,A. Back,Z. Barnard,N. Barros,E. W. Beier,A. Bialek,S. D. Biller,E. Blucher,R. Bonventre,D. Braid,E. Caden,E. J. Callaghan,J. Caravaca,J. Caravaca,João Carvalho,L. Cavalli,D. Chauhan,D. Chauhan,M. L. Chen,O. Chkvorets,Karl J. Clark,Karl J. Clark,Karl J. Clark,B. T. Cleveland,I. T. Coulter,I. T. Coulter,D. Cressy,X. Dai,C. Darrach,B. Davis-Purcell,Rehan Deen,Rehan Deen,M. M. Depatie,F.B. Descamps,F.B. Descamps,F. Di Lodovico,N. Duhaime,F. Duncan,J. Dunger,E. Falk,N. Fatemighomi,R. Ford,P. Gorel,C. Grant,S. Grullon,E. Guillian,A. L. Hallin,D. Hallman,S. Hans,J. Hartnell,P. J. Harvey,M. Hedayatipour,W. J. Heintzelman,R. L. Helmer,B. Hreljac,J. Hu,T. Iida,C. M. Jackson,C. M. Jackson,N. A. Jelley,C. J. Jillings,C. Jones,P. G. Jones,P. G. Jones,K. Kamdin,K. Kamdin,T. Kaptanoglu,J. Kaspar,Paul Keener,P. Khaghani,L. Kippenbrock,J. R. Klein,R. Knapik,R. Knapik,J. Kofron,L. L. Kormos,S. Korte,C. Kraus,C. B. Krauss,K. Labe,I. Lam,C. Lan,B. J. Land,B. J. Land,S. Langrock,A. LaTorre,I. Lawson,G. Lefeuvre,E. J. Leming,J. Lidgard,X. Liu,Y. Liu,V. Lozza,S. Maguire,A. Maio,K. Majumdar,S. Manecki,J. Maneira,E. Marzec,A. Mastbaum,N. McCauley,A. B. McDonald,J. E. McMillan,P. Mekarski,C. Miller,Yuvraj Mohan +110 more
TL;DR: SNO+ is a large liquid scintillator-based experiment located 2km underground at SNOLAB, Sudbury, Canada as discussed by the authors, whose primary goal is a search for the neutrinoless double-beta decay (0$
u\beta\beta$) of 130Te.
Journal ArticleDOI
Improved dark matter search results from PICO-2L Run 2
C. Amole,Miguel Ardid,I. J. Arnquist,D. M. Asner,D. Baxter,E. Behnke,Pijushpani Bhattacharjee,H. Borsodi,Manuel Bou-Cabo,S. J. Brice,Daniel Broemmelsiek,K. Clark,J. I. Collar,P. S. Cooper,M. B. Crisler,C. E. Dahl,C. E. Dahl,Mala Das,F. Debris,S. Fallows,J. Farine,Ivan Felis,R. Filgas,M. Fines-Neuschild,F. Girard,F. Girard,G. Giroux,J. Hall,O. Harris,Eric W. Hoppe,C. M. Jackson,M. Jin,C. B. Krauss,M. Lafrenière,M. Laurin,I. Lawson,A. Leblanc,I. Levine,W. H. Lippincott,E. Mann,J. P. Martin,Deepam Maurya,P. Mitra,S. Olson,R. Neilson,A. J. Noble,A. Plante,R. B. Podviianiuk,Shashank Priya,A. E. Robinson,M. Ruschman,O. Scallon,O. Scallon,Andrew Sonnenschein,N. Starinski,I. Stekl,E. Vázquez-Jáuregui,J. Wells,U. Wichoski,V. Zacek,Jie Zhang +60 more
TL;DR: In this article, the PICO Collaboration thanks SNOLAB for their exceptional laboratory space and technical support, and also thanks Fermi National Accelerator Laboratory (Contract No. DE-AC02-07CH11359) and Pacific Northwest National Laboratory for their support.
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.