Brian Feldstein
University of Oxford
3 Papers
318 Citations
Brian Feldstein is an academic researcher from University of Oxford. The author has contributed to research in topics: Dark matter & Warm dark matter. The author has an hindex of 3, co-authored 3 publications.
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Papers
Simplified Models for Dark Matter Searches at the LHC
Jalal Abdallah,Henrique Araujo,Alexandre Arbey,Alexandre Arbey,Alexandre Arbey,Adi Ashkenazi,Alexander Belyaev,Joshua Berger,Celine Boehm,Antonio Boveia,Amelia Jean Brennan,James John Brooke,Oliver Buchmueller,Matthew R. Buckley,Giorgio Busoni,Lorenzo Calibbi,Lorenzo Calibbi,Sushil Chauhan,Nadir Daci,Gavin Davies,Isabelle De Bruyn,Paul De Jong,Albert De Roeck,Kees de Vries,D. Del Re,Andrea De Simone,Andrea Di Simone,Caterina Doglioni,Matthew J. Dolan,Herbi K. Dreiner,John Ellis,John Ellis,Sarah Catherine Eno,Erez Etzion,Malcolm Fairbairn,Brian Feldstein,Henning Flaecher,Eric Feng,Patrick J. Fox,Marie-Helene Genest,Loukas Gouskos,Johanna Gramling,Ulrich Haisch,Ulrich Haisch,Roni Harnik,Anthony Hibbs,Siewyan Hoh,W. Hopkins,Valerio Ippolito,Thomas Jacques,Felix Kahlhoefer,Valentin V. Khoze,Russell Kirk,Andreas Korn,Khristian Kotov,Shuichi Kunori,Greg Landsberg,Sebastian Liem,Tongyan Lin,Steven Lowette,Robyn Lucas,Robyn Lucas,Luca Malgeri,Sarah Malik,Christopher McCabe,Christopher McCabe,Alaettin Serhan Mete,Enrico Morgante,Stephen Mrenna,Yu Nakahama,Yu Nakahama,Dave M Newbold,Karl Nordström,Priscilla Pani,Michele Papucci,Michele Papucci,Sophio Pataraia,Bjoern Penning,Deborah Pinna,Giacomo Polesello,Davide Racco,Emanuele Re,Antonio Riotto,Thomas G. Rizzo,David Salek,Subir Sarkar,S. Schramm,P. Skubic,Oren Slone,Juri Smirnov,Yotam Soreq,T. J. Sumner,Tim M. P. Tait,Marc Thomas,Marc Thomas,Ian R Tomalin,C. Tunnell,Alessandro Vichi,Tomer Volansky,Neal Weiner,Stephen M. West,Monika Wielers,Steven Worm,Itay Yavin,Itay Yavin,Bryan Zaldivar,Ning Zhou,Kathryn M. Zurek,Kathryn M. Zurek +108 more
TL;DR: In this article, a set of simplified models for dark matter and its interactions with the Standard Model particles are presented, and the guiding principles underpinning these simplified models are spelled out, and some suggestions for implementation are presented.
Simplified Models for Dark Matter Searches at the LHC
Jalal Abdallah,Henrique Araujo,Alexandre Arbey,Alexandre Arbey,Alexandre Arbey,Adi Ashkenazi,Alexander Belyaev,Joshua Berger,Celine Boehm,Antonio Boveia,Amelia Jean Brennan,James John Brooke,Oliver Buchmueller,Matthew R. Buckley,Giorgio Busoni,Lorenzo Calibbi,Lorenzo Calibbi,Sushil Chauhan,Nadir Daci,Gavin Davies,Isabelle De Bruyn,Paul De Jong,Albert De Roeck,Kees de Vries,D. Del Re,Andrea De Simone,Andrea Di Simone,Caterina Doglioni,Matthew J. Dolan,Herbi K. Dreiner,John Ellis,John Ellis,Sarah Catherine Eno,Erez Etzion,Malcolm Fairbairn,Brian Feldstein,Henning Flaecher,Eric Feng,Patrick J. Fox,Marie-Helene Genest,Loukas Gouskos,Johanna Gramling,Ulrich Haisch,Ulrich Haisch,Roni Harnik,Anthony Hibbs,Siewyan Hoh,W. Hopkins,Valerio Ippolito,Thomas Jacques,Felix Kahlhoefer,Valentin V. Khoze,Russell Kirk,Andreas Korn,Khristian Kotov,Shuichi Kunori,Greg Landsberg,Sebastian Liem,Tongyan Lin,Steven Lowette,Robyn Lucas,Robyn Lucas,Luca Malgeri,Sarah Malik,Christopher McCabe,Christopher McCabe,Alaettin Serhan Mete,Enrico Morgante,Stephen Mrenna,Yu Nakahama,Yu Nakahama,Dave M Newbold,Karl Nordström,Priscilla Pani,Michele Papucci,Michele Papucci,Sophio Pataraia,Bjoern Penning,Deborah Pinna,Giacomo Polesello,Davide Racco,Emanuele Re,Antonio Riotto,Thomas G. Rizzo,David Salek,Subir Sarkar,S. Schramm,P. Skubic,Oren Slone,Juri Smirnov,Yotam Soreq,T. J. Sumner,Tim M. P. Tait,Marc Thomas,Marc Thomas,Ian R Tomalin,C. Tunnell,Alessandro Vichi,Tomer Volansky,Neal Weiner,Stephen M. West,Monika Wielers,Steven Worm,Itay Yavin,Itay Yavin,Bryan Zaldivar,Ning Zhou,Kathryn M. Zurek,Kathryn M. Zurek +108 more
TL;DR: In this paper, a set of simplified models for dark matter and its interactions with the Standard Model particles are presented, and the guiding principles underpinning these simplified models are spelled out, and some suggestions for implementation are presented.
318
Hypercharged dark matter and direct detection as a probe of reheating.
TL;DR: The interesting and generic case of hypercharged dark matter is considered, which can allow for heavy dark matter masses without spoiling testability, and the extent to which future experiments may be able to make such a determination is discussed.
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