M
M. Cervantes
Researcher at Purdue University
Publications - 35
Citations - 3982
M. Cervantes is an academic researcher from Purdue University. The author has contributed to research in topics: Dark matter & WIMP. The author has an hindex of 25, co-authored 33 publications receiving 3526 citations.
Papers
More filters
Journal ArticleDOI
First Dark Matter Search Results from the XENON1T Experiment
Elena Aprile,Jelle Aalbers,F. Agostini,M. Alfonsi,F. D. Amaro,M. Anthony,F. Arneodo,P. Barrow,Laura Baudis,Boris Bauermeister,M. L. Benabderrahmane,T. Berger,P. A. Breur,April S. Brown,Ethan Brown,S. Bruenner,Giacomo Bruno,Ran Budnik,L. Bütikofer,J. Calvén,João Cardoso,M. Cervantes,D. Cichon,D. Coderre,Auke-Pieter Colijn,Jan Conrad,Jean-Pierre Cussonneau,M. P. Decowski,P. de Perio,P. Di Gangi,A. Di Giovanni,Sara Diglio,G. Eurin,J. Fei,A. D. Ferella,A. Fieguth,W. Fulgione,A. Gallo Rosso,Michelle Galloway,F. Gao,M. Garbini,Robert Gardner,C. Geis,Luke Goetzke,L. Grandi,Z. Greene,C. Grignon,C. Hasterok,E. Hogenbirk,J. Howlett,R. Itay,B. Kaminsky,Shingo Kazama,G. Kessler,A. Kish,H. Landsman,R. F. Lang,D. Lellouch,L. Levinson,Qing Lin,Sebastian Lindemann,Manfred Lindner,F. Lombardi,J. A. M. Lopes,A. Manfredini,I. Mariș,T. Marrodán Undagoitia,Julien Masbou,F. V. Massoli,D. Masson,D. Mayani,M. Messina,K. Micheneau,A. Molinario,K. Morâ,M. Murra,J. Naganoma,Kaixuan Ni,Uwe Oberlack,P. Pakarha,Bart Pelssers,R. Persiani,F. Piastra,J. Pienaar,V. Pizzella,M.-C. Piro,Guillaume Plante,N. Priel,L. Rauch,S. Reichard,C. Reuter,B. Riedel,A. Rizzo,S. Rosendahl,N. Rupp,R. Saldanha,J.M.F. dos Santos,Gabriella Sartorelli,M. Scheibelhut,S. Schindler,J. Schreiner,Marc Schumann,L. Scotto Lavina,M. Selvi,P. Shagin,E. Shockley,Manuel Gameiro da Silva,H. Simgen,M. V. Sivers,A. Stein,S. Thapa,Dominique Thers,A. Tiseni,Gian Carlo Trinchero,C. Tunnell,M. Vargas,N. Upole,Hui Wang,Zirui Wang,Yuehuan Wei,Ch. Weinheimer,J. Wulf,J. Ye,Yanxi Zhang,T. Zhu +124 more
TL;DR: The first dark matter search results from XENON1T, a ∼2000-kg-target-mass dual-phase (liquid-gas) xenon time projection chamber in operation at the Laboratori Nazionali del Gran Sasso in Italy, are reported and a profile likelihood analysis shows that the data are consistent with the background-only hypothesis.
Journal ArticleDOI
Physics reach of the XENON1T dark matter experiment
Elena Aprile,Jelle Aalbers,F. Agostini,M. Alfonsi,F. D. Amaro,M. Anthony,Lior Arazi,F. Arneodo,C. Balan,P. Barrow,Laura Baudis,Boris Bauermeister,Boris Bauermeister,T. Berger,P. A. Breur,Amos Breskin,April S. Brown,Ethan Brown,S. Bruenner,Giacomo Bruno,Ran Budnik,L. Bütikofer,João Cardoso,M. Cervantes,D. Cichon,D. Coderre,Auke-Pieter Colijn,Jan Conrad,H. Contreras,Jean-Pierre Cussonneau,M. P. Decowski,P. de Perio,P. Di Gangi,A. Di Giovanni,E. Duchovni,S. Fattori,A. D. Ferella,A. Fieguth,D. Franco,W. Fulgione,Michelle Galloway,M. Garbini,C. Geis,Luke Goetzke,Z. Greene,C. Grignon,E. K. U. Gross,W. Hampel,C. Hasterok,R. Itay,Florian Kaether,B. Kaminsky,G. Kessler,A. Kish,H. Landsman,R. F. Lang,D. Lellouch,L. Levinson,M. Le Calloch,C. Levy,Sebastian Lindemann,Manfred Lindner,J. A. M. Lopes,A. Lyashenko,S. Macmullin,A. Manfredini,T. Marrodán Undagoitia,Julien Masbou,F. V. Massoli,D. Mayani,A. J. Melgarejo Fernandez,Y. Meng,M. Messina,K. Micheneau,B. Miguez,A. Molinario,M. Murra,J. Naganoma,Uwe Oberlack,S. E. A. Orrigo,P. Pakarha,Bart Pelssers,R. Persiani,F. Piastra,J. Pienaar,Guillaume Plante,N. Priel,L. Rauch,S. Reichard,C. Reuter,A. Rizzo,S. Rosendahl,N. Rupp,J.M.F. dos Santos,Gabriella Sartorelli,M. Scheibelhut,S. Schindler,Jochen Schreiner,Marc Schumann,L. Scotto Lavina,M. Selvi,P. Shagin,Hardy Simgen,A. Stein,D. Thers,A. Tiseni,G. C. Trinchero,C. Tunnell,M. von Sivers,R. Wall,Hui Wang,M. Weber,Yuehuan Wei,Ch. Weinheimer,J. Wulf,Yanxi Zhang +115 more
TL;DR: In this article, the expected sensitivity of the Xenon1T experiment to the spin-independent WIMP-nucleon interaction cross section was investigated based on Monte Carlo predictions of the electronic and nuclear recoil backgrounds.
Journal ArticleDOI
Observation of Coherent Elastic Neutrino-Nucleus Scattering
D. Akimov,Justin Albert,P. An,C. Awe,P. S. Barbeau,B. Becker,V. A. Belov,April S. Brown,Alexander Bolozdynya,Belkis Cabrera-Palmer,M. Cervantes,J. I. Collar,Reynold J. Cooper,Robert Cooper,C. Cuesta,D. J. Dean,J. A. Detwiler,A. Eberhardt,Yuri Efremenko,S. R. Elliott,E. M. Erkela,Lorenzo Fabris,Michael Febbraro,N. Fields,W. Fox,Z. Fu,A. Galindo-Uribarri,M. P. Green,M. Hai,M.R. Heath,S. Hedges,D. Hornback,Todd W. Hossbach,Erik B. Iverson,L. J. Kaufman,S. Ki,S. R. Klein,A.V. Khromov,A. Konovalov,M. Kremer,A. V. Kumpan,C. Leadbetter,Liang Li,W. Lu,Kathryn Mann,D. M. Markoff,K. Miller,H. Moreno,P. E. Mueller,Jason Newby,John L. Orrell,Cory T. Overman,Diana Parno,Seppo Penttila,G. Perumpilly,H. Ray,J. Raybern,David Reyna,G.C. Rich,D. Rimal,D. Rudik,Kate Scholberg,Bjorn Scholz,G. Sinev,W. M. Snow,V.V. Sosnovtsev,A. Shakirov,S. Suchyta,B. Suh,R. Tayloe,Rod Thornton,I. Tolstukhin,J. Vanderwerp,R. L. Varner,C. J. Virtue,Z. Wan,Jaeun Yoo,C.-H. Yu,A. Zawada,J. Zettlemoyer,A. M. Zderic +80 more
TL;DR: The coherent elastic scattering of neutrinos off nuclei has eluded detection for four decades, even though its predicted cross-section is the largest by far of all low-energy neutrino couplings as discussed by the authors.
Journal ArticleDOI
Physics reach of the XENON1T dark matter experiment
Elena Aprile,Jelle Aalbers,F. Agostini,M. Alfonsi,F. D. Amaro,M. Anthony,Lior Arazi,F. Arneodo,C. Balan,P. Barrow,Laura Baudis,Boris Bauermeister,T. Berger,P. A. Breur,Amos Breskin,April S. Brown,Ethan Brown,S. Bruenner,Giacomo Bruno,Ran Budnik,L. Bütikofer,João Cardoso,M. Cervantes,D. Cichon,D. Coderre,Auke-Pieter Colijn,Jan Conrad,H. Contreras,Jean-Pierre Cussonneau,M. P. Decowski,P. de Perio,P. Di Gangi,A. Di Giovanni,E. Duchovni,S. Fattori,A. D. Ferella,A. Fieguth,D. Franco,W. Fulgione,Michelle Galloway,M. Garbini,C. Geis,Luke Goetzke,Z. Greene,C. Grignon,E. K. U. Gross,W. Hampel,C. Hasterok,R. Itay,Florian Kaether,B. Kaminsky,G. Kessler,A. Kish,H. Landsman,R. F. Lang,D. Lellouch,L. Levinson,M. Le Calloch,C. Levy,Sebastian Lindemann,Manfred Lindner,J. A. M. Lopes,A. Lyashenko,S. Macmullin,A. Manfredini,T. Marrodán Undagoitia,Julien Masbou,F. V. Massoli,D. Mayani,A. J. Melgarejo Fernandez,Y. Meng,M. Messina,K. Micheneau,B. Miguez,A. Molinario,M. Murra,J. Naganoma,Uwe Oberlack,S. E. A. Orrigo,P. Pakarha,Bart Pelssers,R. Persiani,F. Piastra,J. Pienaar,Guillaume Plante,N. Priel,L. Rauch,S. Reichard,C. Reuter,A. Rizzo,S. Rosendahl,N. Rupp,J.M.F. dos Santos,Gabriella Sartorelli,M. Scheibelhut,S. Schindler,Jochen Schreiner,Marc Schumann,L. Scotto Lavina,M. Selvi,P. Shagin,Hardy Simgen,A. Stein,D. Thers,A. Tiseni,G. C. Trinchero,C. Tunnell,M. von Sivers,R. Wall,Hulin Wang,Max Weber,Yuehuan Wei,Ch. Weinheimer,J. Wulf,Yanxi Zhang +114 more
TL;DR: In this paper, the expected sensitivity of the XENON1T experiment to the spin-independent WIMP-nucleon interaction cross section, based on Monte Carlo predictions of the electronic and nuclear recoil backgrounds, was studied.
Journal ArticleDOI
The XENON1T dark matter experiment
Elena Aprile,Jelle Aalbers,F. Agostini,M. Alfonsi,F. D. Amaro,M. Anthony,Bruno Antunes,F. Arneodo,M. Balata,P. Barrow,Laura Baudis,Boris Bauermeister,M. L. Benabderrahmane,T. Berger,Amos Breskin,P. A. Breur,April S. Brown,Ethan Brown,S. Bruenner,Giacomo Bruno,Ran Budnik,L. Bütikofer,J. Calvén,João Cardoso,M. Cervantes,A. Chiarini,D. Cichon,D. Coderre,Auke-Pieter Colijn,Jan Conrad,R. Corrieri,Jean-Pierre Cussonneau,M. P. Decowski,P. de Perio,P. Di Gangi,A. Di Giovanni,Sara Diglio,J. M. Disdier,M. Doets,E. Duchovni,G. Eurin,J. Fei,A. D. Ferella,A. Fieguth,D. Franco,D. Front,W. Fulgione,A. Gallo Rosso,Michelle Galloway,F. Gao,M. Garbini,C. Geis,Karl Giboni,Luke Goetzke,L. Grandi,Z. Greene,C. Grignon,C. Hasterok,E. Hogenbirk,C. Huhmann,R. Itay,A. James,B. Kaminsky,Shingo Kazama,G. Kessler,A. Kish,H. Landsman,R. F. Lang,D. Lellouch,L. Levinson,Qing Lin,Sebastian Lindemann,Sebastian Lindemann,Manfred Lindner,F. Lombardi,J. A. M. Lopes,R. Maier,A. Manfredini,Ioana Codrina Maris,T. Marrodán Undagoitia,Julien Masbou,F. V. Massoli,D. Masson,D. Mayani,M. Messina,M. Messina,K. Micheneau,A. Molinario,K. Morå,M. Murra,J. Naganoma,Kaixuan Ni,Uwe Oberlack,D. Orlandi,Rainer Othegraven,P. Pakarha,S. Parlati,Bart Pelssers,R. Persiani,F. Piastra,J. Pienaar,J. Pienaar,V. Pizzella,M.-C. Piro,Guillaume Plante,N. Priel,D. Ramírez García,D. Ramírez García,L. Rauch,S. Reichard,S. Reichard,C. Reuter,A. Rizzo,S. Rosendahl,N. Rupp,J.M.F. dos Santos,R. Saldanha,Gabriella Sartorelli,M. Scheibelhut,S. Schindler,Jochen Schreiner,Marc Schumann,L. Scotto Lavina,M. Selvi,P. Shagin,E. Shockley,Manuel Gameiro da Silva,Hardy Simgen,M. V. Sivers,M. Stern,A. Stein,D. Tatananni,L. Tatananni,D. Thers,A. Tiseni,G. C. Trinchero,C. Tunnell,N. Upole,M. Vargas,O. Wack,R. Walet,Hui Wang,Zhou Wang,Yuehuan Wei,Yuehuan Wei,Ch. Weinheimer,C. Wittweg,J. Wulf,J. Ye,Yanxi Zhang +149 more
TL;DR: The XENON1T experiment at the Laboratori Nazionali del Gran Sasso (LNGS) is the first WIMP dark matter detector operating with a liquid xenon target mass above the ton-scale.