M. Ruschman
Fermilab
8 Papers
4 Citations
M. Ruschman is an academic researcher from Fermilab. The author has contributed to research in topics: Dark matter & Bubble chamber. The author has an hindex of 6, co-authored 8 publications.
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Papers
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.
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Direct measurement of the bubble-nucleation energy threshold in a CF 3 I bubble chamber
E. Behnke,T. Benjamin,S. J. Brice,Daniel Broemmelsiek,J. I. Collar,P. S. Cooper,M. B. Crisler,C. E. Dahl,C. E. Dahl,Drew Fustin,J. Hall,C. Harnish,Ilan Levine,W. H. Lippincott,T. Moan,T. Nania,R. Neilson,E. J. Ramberg,A. E. Robinson,M. Ruschman,Andrew Sonnenschein,E. Vázquez-Jáuregui,Ryan Rivera,Lorenzo Uplegger +23 more
TL;DR: In this paper, the energy threshold and efficiency for bubble nucleation from iodine recoils in a CF3I bubble chamber in the energy range of interest for a dark matter search were measured by observing the elastic scattering of 12 GeV/c negative pions.
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PICASSO, COUPP and PICO - Search for dark matter with bubble chambers
C. Amole,Miguel Ardid,D. M. Asner,D. Baxter,E. Behnke,Pijushpani Bhattacharjee,H. Borsodi,M. Bou-Cabo,S. J. Brice,Daniel Broemmelsiek,K. Clark,J. I. Collar,P. S. Cooper,M. B. Crisler,C. E. Dahl,Mala Das,F. Debris,N. Dhungana,J. Farine,Ivan Felis,R. Filgas,M. Fines-Neuschild,F. Girard,G. Giroux,M. Hai,J. Hall,O. Harris,C. M. Jackson,M. Jin,C. B. Krauss,M. Lafrenière,M. Laurin,I. Lawson,Ilan Levine,W. H. Lippincott,E. Mann,J. P. Martin,Deepam Maurya,P. Mitra,R. Neilson,R. Neilson,A. J. Noble,A. Plante,R. Podviyanuk,Shashank Priya,A. E. Robinson,M. Ruschman,O. Scallon,O. Scallon,S. Seth,Andrew Sonnenschein,N. Starinski,I. Stekl,E. Vázquez-Jáuregui,J. Wells,U. Wichoski,V. Zacek,J. Zhang +57 more
TL;DR: The PICASSO and COUPP collaborations use superheated liquid detectors to search for cold dark matter through direct detection of weakly interacting massive particles (WIMPs).
The cryogenics design of the SuperCDMS SNOLAB experiment
Matthew I. Hollister,D A Bauer,Ram Dhuley,P T Lukens,L D Martin,M. Ruschman,R. Schmitt,Grzegorz Tatkowski +7 more
- 29 Dec 2017
TL;DR: The Super Cryogenic Dark Matter Search (SuperCDMS) experiment is a direct detection dark matter experiment intended for deployment to the SNOLAB underground facility in Ontario, Canada as discussed by the authors, with a payload of up to 186 germanium and silicon crystal detectors operating below 15 mK.
Thermal conductance measurements of bolted copper joints for SuperCDMS
R. Schmitt,Greg Tatkowski,M. Ruschman,Sunil Golwala,Nicholas Kellaris,Miguel Daal,J. Hall,Eric W. Hoppe +7 more
TL;DR: Joint thermal conductance testing has been undertaken for bolted copper to copper connections from 60 mK to 26 K in this article, which is performed to validate an initial design basis for the SuperCDMS experiment, where a dilution refrigerator will be coupled to a cryostat via multiple bolted connections.
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