D
D. Ramírez García
Researcher at University of Freiburg
Publications - 34
Citations - 4494
D. Ramírez García is an academic researcher from University of Freiburg. The author has contributed to research in topics: Dark matter & Weakly interacting massive particles. The author has an hindex of 19, co-authored 30 publications receiving 2908 citations. Previous affiliations of D. Ramírez García include University of Mainz.
Papers
More filters
Journal ArticleDOI
Intrinsic backgrounds from Rn and Kr in the XENON100 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,C. Geis,Luke Goetzke,Z. Greene,C. Grignon,C. Hasterok,E. Hogenbirk,R. Itay,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,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,P. Pakarha,Bart Pelssers,R. Persiani,F. Piastra,J. Pienaar,J. Pienaar,M.-C. Piro,V. Pizzella,Guillaume Plante,N. Priel,D. Ramírez García,D. Ramírez García,L. Rauch,S. Reichard,C. Reuter,C. Reuter,A. Rizzo,N. Rupp,J.M.F. dos Santos,Gabriella Sartorelli,M. Scheibelhut,S. Schindler,J. Schreiner,Marc Schumann,L. Scotto Lavina,M. Selvi,P. Shagin,Manuel Gameiro da Silva,H. Simgen,M. von Sivers,A. Stein,Dominique Thers,A. Tiseni,Gian Carlo Trinchero,C. Tunnell,C. Tunnell,M. Vargas,Hui Wang,Zhou Wang,Martin Weber,Martin Weber,Yuehuan Wei,Yuehuan Wei,Ch. Weinheimer,C. Wittweg,J. Wulf,J. Ye,Yanxi Zhang +125 more
TL;DR: In this paper, the authors describe the XENON100 data analyses used to assess the target-intrinsic background sources radon ( ), thoron ( ) and krypton ( ).
Journal ArticleDOI
Search for inelastic scattering of WIMP dark matter in XENON1T
Elena Aprile,Jelle Aalbers,F. Agostini,M. Alfonsi,L. Althueser,F. D. Amaro,S. Andaloro,E. Angelino,J. R. Angevaare,V. C. Antochi,F. Arneodo,Laura Baudis,Boris Bauermeister,L. Bellagamba,M. L. Benabderrahmane,April S. Brown,Ethan Brown,S. Bruenner,Giacomo Bruno,R. Budnik,R. Budnik,C. Capelli,João Cardoso,D. Cichon,B. Cimmino,M. Clark,D. Coderre,A. P. Colijn,A. P. Colijn,Jan Conrad,J. Cuenca,Jean-Pierre Cussonneau,M. P. Decowski,A. Depoian,P. Di Gangi,A. Di Giovanni,R. Di Stefano,Sara Diglio,A. Elykov,A. D. Ferella,W. Fulgione,P. Gaemers,R. Gaior,Michelle Galloway,F. Gao,F. Gao,L. Grandi,C. Hils,Katsuki Hiraide,L. Hoetzsch,J. Howlett,M. Iacovacci,Yoshitaka Itow,F. Joerg,N. Kato,Shingo Kazama,Masanori Kobayashi,G. Koltman,A. Kopec,H. Landsman,R. F. Lang,Lorne Levinson,S. Liang,Qing Lin,Sebastian Lindemann,Manfred Lindner,F. Lombardi,J. Long,J. A. M. Lopes,J. A. M. Lopes,Y. Ma,C. Macolino,J. Mahlstedt,A. Mancuso,Laura Manenti,A. Manfredini,Fabrizio Marignetti,T. Marrodán Undagoitia,K. Martens,Julien Masbou,D. Masson,S. Mastroianni,M. Messina,Kentaro Miuchi,Keita Mizukoshi,A. Molinario,K. Morå,K. Morå,S. Moriyama,Y. Mosbacher,M. Murra,J. Naganoma,Kaixuan Ni,Uwe Oberlack,K. Odgers,J. Palacio,J. Palacio,Bart Pelssers,R. Peres,J. Pienaar,M. Pierre,V. Pizzella,Guillaume Plante,J. Qi,J. Qin,D. Ramírez García,S. Reichard,S. Reichard,A. Rocchetti,N. Rupp,J.M.F. dos Santos,G. Sartorelli,N. Šarčević,M. Scheibelhut,Jochen Schreiner,D. Schulte,H. Schulze Eißing,Marc Schumann,L. Scotto Lavina,M. Selvi,F. Semeria,P. Shagin,E. Shockley,Manuel Gameiro da Silva,Hardy Simgen,Atsushi Takeda,C. Therreau,D. Thers,F. Toschi,Gian Carlo Trinchero,C. Tunnell,Kathrin Valerius,M. Vargas,G. Volta,Yuehuan Wei,C. Weinheimer,M. Weiss,D. Wenz,C. Wittweg,T. Wolf,Z. Xu,Masaki Yamashita,J. Ye,G. Zavattini,G. Zavattini,Y. Zhang,T. Zhu,J. P. Zopounidis +147 more
TL;DR: The results of a search for the inelastic scattering of weakly interacting massive particles (WIMPs) in the XENON1T dark matter experiment were reported in this paper.
Journal ArticleDOI
222 Rn emanation measurements for the XENON1T experiment.
Elena Aprile,Jelle Aalbers,F. Agostini,M. Alfonsi,L. Althueser,F. D. Amaro,V. C. Antochi,E. Angelino,J. R. Angevaare,F. Arneodo,D. Barge,Laura Baudis,Boris Bauermeister,Lorenzo Bellagamba,M. L. Benabderrahmane,Thomas Berger,P. A. Breur,Abbe Brown,Ethan Brown,S. Bruenner,Giacomo Bruno,Ran Budnik,Ran Budnik,C. Capelli,João Cardoso,D. Cichon,B. Cimmino,M. Clark,D. Coderre,Auke-Pieter Colijn,Auke-Pieter Colijn,Jan Conrad,Jean-Pierre Cussonneau,M. P. Decowski,A. Depoian,P. Di Gangi,A. Di Giovanni,R. Di Stefano,Sara Diglio,A. Elykov,G. Eurin,A. D. Ferella,W. Fulgione,P. Gaemers,R. Gaior,A. Gallo Rosso,Michelle Galloway,F. Gao,L. Grandi,M. Garbini,C. Hasterok,C. Hils,Katsuki Hiraide,L. Hoetzsch,E. Hogenbirk,J. Howlett,M. Iacovacci,Yoshitaka Itow,F. Joerg,N. Kato,Shingo Kazama,M. Kobayashi,G. Koltman,A. Kopec,H. Landsman,R. F. Lang,L. Levinson,Qing Lin,Stefan Lindemann,Manfred Lindner,F. Lombardi,J. A. M. Lopes,E. López Fune,C. Macolino,Joern Mahlstedt,Laura Manenti,A. Manfredini,Fabrizio Marignetti,T. Marrodán Undagoitia,K. Martens,Julien Masbou,D. Masson,S. Mastroianni,M. Messina,Kentaro Miuchi,A. Molinario,K. Morå,K. Morå,Shigetaka Moriyama,Y. Mosbacher,M. Murra,J. Naganoma,Kaixuan Ni,Uwe Oberlack,K. Odgers,J. Palacio,J. Palacio,Bart Pelssers,R. Peres,J. Pienaar,V. Pizzella,G. Plante,J. Qin,H. Qiu,D. Ramírez García,S. Reichard,A. Rocchetti,N. Rupp,J.M.F. dos Santos,Gabriella Sartorelli,N. Šarčević,M. Scheibelhut,S. Schindler,J. Schreiner,D. Schulte,Marc Schumann,L. Scotto Lavina,M. Selvi,F. Semeria,P. Shagin,E. Shockley,Miguel Silva,H. Simgen,Atsushi Takeda,C. Therreau,Dominique Thers,F. Toschi,Gian Carlo Trinchero,C. Tunnell,M. Vargas,G. Volta,O. Wack,Han Wang,Yuehuan Wei,C. Weinheimer,M. Weiss,D. Wenz,J. Westermann,C. Wittweg,J. Wulf,Z. Xu,Masaki Yamashita,Masaki Yamashita,J. Ye,Guido Zavattini,Guido Zavattini,Yanxi Zhang,T. Zhu,J. P. Zopounidis +148 more
TL;DR: In this article, the authors presented the emanation measurements performed for the XENON1T dark matter experiment, which enabled them to select the radio-purest construction materials, targeting a radioactive radon atom from material surfaces attains increasing relevance in the effort to further reduce the background of such experiments.
Posted Content
Sensitivity of the DARWIN observatory to the neutrinoless double beta decay of $^{136}$Xe
F. Agostini,S. E. M. Ahmed Maouloud,L. Althueser,F. D. Amaro,Biljana Antunović,Elena Aprile,Laura Baudis,D. Baur,Y. Biondi,A. Bismark,A. Bismark,P. A. Breur,Abbe Brown,Giacomo Bruno,Ran Budnik,C. Capelli,João Cardoso,D. Cichon,M. Clark,Auke-Pieter Colijn,J. J. Cuenca-García,Jean-Pierre Cussonneau,M. P. Decowski,A. Depoian,J. Dierle,P. Di Gangi,A. Di Giovanni,Sara Diglio,J.M.F. dos Santos,Guido Drexlin,K. Eitel,Ralph Engel,A. D. Ferella,H. Fischer,Michelle Galloway,F. Gao,F. Girard,Ferenc Glück,L. Grandi,R. Größle,R. Gumbsheimer,S. Hansmann-Menzemer,F. Jörg,G. Khundzakishvili,A. Kopec,Fabian Kuger,Lawrence M. Krauss,H. Landsman,R. F. Lang,Stefan Lindemann,Manfred Lindner,J. A. M. Lopes,A. Loya Villalpando,C. Macolino,A. Manfredini,T. Marrodán Undagoitia,Julien Masbou,Eef Masson,P. Meinhardt,S. Milutinovic,A. Molinario,C.M.B. Monteiro,M. Murra,Uwe Oberlack,Mila Pandurovic,R. Peres,J. Pienaar,M. Pierre,V. Pizzella,J. Qin,D. Ramírez García,S. Reichard,N. Rupp,P. Sanchez-Lucas,Gabriella Sartorelli,D. Schulte,Marc Schumann,L. Scotto Lavina,M. Selvi,Miguel Silva,H. Simgen,M. Steidl,A. Terliuk,C. Therreau,D. Thers,K. Thieme,Roberto Trotta,C. Tunnell,Kathrin Valerius,G. Volta,D. Vorkapic,Ch. Weinheimer,C. Wittweg,Joachim Wolf,J. P. Zopounidis,Kai Zuber +95 more
TL;DR: The DARWIN observatory is a proposed next-generation experiment to search for particle dark matter and for the neutrinoless double beta decay of $^{136}$Xe as mentioned in this paper.
Journal ArticleDOI
The XENON1T data acquisition system
Elena Aprile,Jelle Aalbers,Jelle Aalbers,F. Agostini,M. Alfonsi,L. Althueser,F. D. Amaro,V. C. Antochi,F. Arneodo,D. Barge,Laura Baudis,Boris Bauermeister,L. Bellagamba,M. L. Benabderrahmane,T. Berger,P. A. Breur,April S. Brown,Ethan Brown,S. Bruenner,Giacomo Bruno,Ran Budnik,L. Bütikofer,C. Capelli,João Cardoso,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,A. Elykov,G. Eurin,J. Fei,A. D. Ferella,A. Fieguth,W. Fulgione,P. Gaemers,A. Gallo Rosso,Michelle Galloway,F. Gao,M. Garbini,L. Grandi,Z. Greene,C. Hasterok,E. Hogenbirk,J. Howlett,M. Iacovacci,R. Itay,F. Joerg,Shingo Kazama,A. Kish,Masanori Kobayashi,G. Koltman,A. Kopec,H. Landsman,R. F. Lang,L. Levinson,Qing Lin,Sebastian Lindemann,Manfred Lindner,F. Lombardi,F. Lombardi,J. A. M. Lopes,E. López Fune,C. Macolino,J. Mahlstedt,A. Manfredini,A. Manfredini,Fabrizio Marignetti,T. Marrodán Undagoitia,Julien Masbou,D. Masson,S. Mastroianni,M. Messina,K. Micheneau,Kate C. Miller,A. Molinario,K. Morå,Y. Mosbacher,M. Murra,J. Naganoma,Kaixuan Ni,Uwe Oberlack,K. Odgers,Bart Pelssers,R. Peres,R. Peres,F. Piastra,J. Pienaar,V. Pizzella,Guillaume Plante,R. Podviianiuk,H. Qiu,D. Ramírez García,S. Reichard,B. Riedel,A. Rocchetti,N. Rupp,J.M.F. dos Santos,G. Sartorelli,N. Šarčević,M. Scheibelhut,S. Schindler,Jochen Schreiner,D. Schulte,Marc Schumann,L. Scotto Lavina,M. Selvi,P. Shagin,E. Shockley,Manuel Gameiro da Silva,Hardy Simgen,C. Therreau,D. Thers,F. Toschi,G. C. Trinchero,C. Tunnell,N. Upole,M. Vargas,G. Volta,O. Wack,Han Wang,Yuehuan Wei,Ch. Weinheimer,D. Wenz,C. Wittweg,J. Wulf,J. Ye,Yanxi Zhang,T. Zhu,J. P. Zopounidis,M. Pieracci,C. Tintori +136 more
TL;DR: The XENON1T liquid xenon time projection chamber is the most sensitive detector built to date for the measurement of direct interactions of weakly interacting massive particles with normal matter and the data acquisition system (DAQ) is constructed from commercial, open source, and custom components to digitize signals from the detector and store them for later analysis.