Article
Astronomy & Astrophysics
Amit Bhoonah, Joseph Bramante, Brian Courtman, Ningqiang Song
Summary: Large panels of etched plastic are used on the Skylab Space Station and in the Ohya quarry near Tokyo to set limits on fluxes of cosmogenic particles and provide sensitivity for heavy dark matter interacting with nuclei. Revisiting prior dark matter bounds from Skylab, incorporating new factors, substantially narrows the mass range. An analysis of Ohya data covers part of the Skylab bound and excludes dark matter masses up to the Planck mass, with prospects for future searches discussed.
Review
Physics, Multidisciplinary
Yonatan Kahn, Tongyan Lin
Summary: This review provides a comprehensive introduction to the direct detection of keV-GeV dark matter using condensed matter systems. The article discusses the challenges of achieving a kinematic match between light dark matter and the target, highlighting the importance of condensed matter physics. The review also covers the theoretical treatment of dark matter-nucleon and dark matter-electron interactions, as well as recent developments in detector technology.
REPORTS ON PROGRESS IN PHYSICS
(2022)
Article
Physics, Multidisciplinary
Yonit Hochberg, Belina von Krosigk, Eric Kuflik, To Chin Yu
Summary: This study reveals the significant impact of dark Compton scattering, often neglected in absorption searches, on the mass reach and discovery potential of direct detection experiments at high bosonic cold dark matter masses. The research improves the expected reach across materials and places enhanced limits on dark matter parameter space using data from SuperCDMS, EDELWEISS, and GERDA experiments. The implications for detector design and analysis are outlined.
PHYSICAL REVIEW LETTERS
(2022)
Article
Quantum Science & Technology
Nataniel L. Figueroa, Dmitry Budker, Ernst M. Rasel
Summary: This article discusses recent and future searches for dark matter candidates using accelerometer networks, and outlines how new technologies could support these searches.
QUANTUM SCIENCE AND TECHNOLOGY
(2021)
Article
Astronomy & Astrophysics
Trygve Buanes, Inaki Lara, Krzysztof Rolbiecki, Kazuki Sakurai
Summary: We revisit LHC searches for heavy invisible particles using QCD initial state radiation, specifically focusing on the electroweakino sector. By analyzing the dijet signal region in a general multijet plus MET search conducted by ATLAS, we obtain nontrivial mass limits for various models. For instance, winos must have a mass greater than mW > 160 GeV and Higgsinos must have a mass greater than mh > 100 GeV, depending on the chargino-neutralino mass splitting. Furthermore, we predict that the exclusion limits will increase to mW > 200 GeV and mh > 130 GeV for winos and Higgsinos, respectively, with the expected data from LHC Run 3 with L = 300 fb-1. This study presents the first LHC limit for promptly decaying nearly mass-degenerate winos.
Article
Astronomy & Astrophysics
Ernest Ma
Summary: The paper presents a simple scenario of long-lived dark matter, assuming lepton number conservation with Dirac neutrinos. The neutral component of an SU(2)(L) scalar triplet with L = 2 is suggested as a suitable candidate, which may decay to two neutrinos. Exotic leptons with L = -1 could also play a role, serving as anchors for small seesaw Dirac neutrino masses.
Article
Astronomy & Astrophysics
Jerome Claude, Maira Dutra, Stephen Godfrey
Summary: Dark matter may consist of feebly interacting massive particles (FIMPs) that never thermalized with the cosmic plasma. Their relic density is achieved via freeze-in for a wide range of masses, significantly expanding the model space that can be tested compared to other production mechanisms. However, testing the tiny couplings required by freeze-in is challenging. We show that FIMPs can be probed by LHC searches for new physics in monojet events with large missing energy. We study a Z' portal model in which gluon annihilation produces FIMPs in the early universe and today at colliders. Monojet searches by LHC Run 3 might discover new physics accounted for by FIMPs with mass in the MeV-TeV range.
Article
Astronomy & Astrophysics
Robert Lasenby
Summary: This paper discusses the role of light axionlike particles in theories beyond the Standard Model of physics and their coupling to the Standard Model, as well as the broad experimental program to search for axion dark matter. The limitations and experimental methods for low-mass axion experiments using static background magnetic fields are also explored in the paper.
Article
Quantum Science & Technology
Anthony J. Brady, Christina Gao, Roni Harnik, Zhen Liu, Zheshen Zhang, Quntao Zhuang
Summary: This study demonstrates the potential of injecting squeezed vacuum into a network of sensor cavities to accelerate axion searches and provides a theoretical framework to optimize the search using quantum entanglement and coherence. The feasibility of using GKP states is also evaluated, highlighting the limitations in practical measurement schemes.
Article
Physics, Multidisciplinary
Spyros Argyropoulos, Ulrich Haisch
Summary: Using suitable benchmark scenarios, this study analyzes the bounds on light CP-odd spin-0 states in the 2HDM+a model. The results provide valuable insights for interpreting future searches for pseudoscalars with masses below the electroweak scale by ATLAS, CMS and LHCb.
Article
Physics, Particles & Fields
Ayuki Kamada, Takumi Kuwahara
Summary: This study discusses the visible decay searches for composite asymmetric dark matter models, and shows that the LHC lifetime frontier, such as MATHUSLA and FASER, as well as fixed-target experiments like SeaQuest, have a great potential to discover the decay of dark matter under certain conditions of kinetic mixing angle.
JOURNAL OF HIGH ENERGY PHYSICS
(2022)
Article
Astronomy & Astrophysics
Marie Cassing, Alexander Brisebois, Muhammad Azeem, Juergen Schaffner-Bielich
Summary: The generic properties of compact objects made of two different fluids of dark matter are studied. Compact objects with a core-shell structure and mixed dark matter components are investigated. The results show novel features in the mass-radius relations for combined dark matter compact objects, distinguishing them from compact objects with a single dark matter fluid and compact stars made of ordinary baryonic matter.
ASTROPHYSICAL JOURNAL
(2023)
Article
Astronomy & Astrophysics
Claudio Gatti, Paola Gianotti, Carlo Ligi, Mauro Raggi, Paolo Valente
Summary: The lack of experimental evidence for dark matter has led to the development of new ideas about its nature, prompting national laboratories like Frascati to invest in small-scale experiments. Previously focused on particle physics research with accelerators, these laboratories are now intensifying their activity in the field of dark matter research.
Article
Astronomy & Astrophysics
Claire Guepin, Roberto Aloisio, Austin Cummings, Luis A. Anchordoqui, John F. Krizmanic, Angela Olinto, Mary Hall Reno, Tonia M. Venters
Summary: The study demonstrates that next-generation high-energy neutrino detectors such as POEMMA and GRAND have unique advantages for probing dark matter properties, improving sensitivity and comparing with existing constraints. Additionally, the uncertainties related to dark matter distribution in the galactic halo play an important role in the research outcomes.
Article
Astronomy & Astrophysics
Shin'ichiro Ando, Koji Ishiwata
Summary: This study investigates observable signals from dark matter self-annihilating in dwarf spheroidal galaxies via the Sommerfeld effect, using prior distributions of parameters to determine the J-factor. The most promising dSphs show a decrease in J-factor compared to earlier estimates, yet the Cherenkov Telescope Array is expected to detect thermal wino dark matter by pointing towards selected dSphs for 500 hours.
Article
Physics, Particles & Fields
Henso Abreu, Claire Antel, Akitaka Ariga, Tomoko Ariga, Jamie Boyd, Franck Cadoux, David W. Casper, Xin Chen, Andrea Coccaro, Candan Dozen, Peter B. Denton, Yannick Favre, Jonathan L. Feng, Didier Ferrere, Iftah Galon, Stephen Gibson, Sergio Gonzalez-Sevilla, Shih-Chieh Hsu, Zhen Hu, Giuseppe Iacobucci, Sune Jakobsen, Roland Jansky, Enrique Kajomovitz, Felix Kling, Susanne Kuehn, Lorne Levinson, Congqiao Li, Josh McFayden, Sam Meehan, Friedemann Neuhaus, Hidetoshi Otono, Brian Petersen, Helena Pikhartova, Michaela Queitsch-Maitland, Osamu Sato, Kristof Schmieden, Matthias Schott, Anna Sfyrla, Savannah Shively, Jordan Smolinsky, Aaron M. Soffa, Yosuke Takubo, Eric Torrence, Sebastian Trojanowski, Callum Wilkinson, Dengfeng Zhang, Gang Zhang
EUROPEAN PHYSICAL JOURNAL C
(2020)
Article
Physics, Nuclear
J. Beacham, C. Burrage, D. Curtin, A. De Roeck, J. Evans, J. L. Feng, C. Gatto, S. Gninenko, A. Hartin, I. Irastorza, J. Jaeckel, K. Jungmann, K. Kirch, F. Kling, S. Knapen, M. Lamont, G. Lanfranchi, C. Lazzeroni, A. Lindner, F. Martinez-Vidal, M. Moulson, N. Neri, M. Papucci, I Pedraza, K. Petridis, M. Pospelov, A. Rozanov, G. Ruoso, P. Schuster, Y. Semertzidis, T. Spadaro, C. Vallee, G. Wilkinson
JOURNAL OF PHYSICS G-NUCLEAR AND PARTICLE PHYSICS
(2020)
Article
Physics, Nuclear
Juliette Alimena, James Beacham, Martino Borsato, Yangyang Cheng, Xabier Cid Vidal, Giovanna Cottin, David Curtin, Albert De Roeck, Nishita Desai, Jared A. Evans, Simon Knapen, Sabine Kraml, Andre Lessa, Zhen Liu, Sascha Mehlhase, Michael J. Ramsey-Musolf, Heather Russell, Jessie Shelton, Brian Shuve, Monica Verducci, Jose Zurita, Todd Adams, Michael Adersberger, Cristiano Alpigiani, Artur Apresyan, Robert John Bainbridge, Varvara Batozskaya, Hugues Beauchesne, Lisa Benato, S. Berlendis, Eshwen Bhal, Freya Blekman, Christina Borovilou, Jamie Boyd, Benjamin P. Brau, Lene Bryngemark, Oliver Buchmueller, Malte Buschmann, William Buttinger, Mario Campanelli, Cari Cesarotti, Chunhui Chen, Hsin-Chia Cheng, Sanha Cheong, Matthew Citron, Andrea Coccaro, V Coco, Eric Conte, Felix Cormier, Louie D. Corpe, Nathaniel Craig, Yanou Cui, Elena Dall'Occo, C. Dallapiccola, M. R. Darwish, Alessandro Davoli, Annapaola de Cosa, Andrea De Simone, Luigi Delle Rose, Frank F. Deppisch, Biplab Dey, Miriam D. Diamond, Keith R. Dienes, Sven Dildick, Babette Doebrich, Marco Drewes, Melanie Eich, M. ElSawy, Alberto Escalante del Valle, Gabriel Facini, Marco Farina, Jonathan L. Feng, Oliver Fischer, H. U. Flaecher, Patrick Foldenauer, Marat Freytsis, Benjamin Fuks, Iftah Galon, Yuri Gershtein, Stefano Giagu, Andrea Giammanco, Vladimir V. Gligorov, Tobias Golling, Sergio Grancagnolo, Giuliano Gustavino, Andrew Haas, Kristian Hahn, Jan Hajer, Ahmed Hammad, Lukas Heinrich, Jan Heisig, J. C. Helo, Gavin Hesketh, Christopher S. Hill, Martin Hirsch, M. Hohlmann, Tova Holmes, W. Hulsbergen, John Huth, Philip Ilten, Thomas Jacques, Bodhitha Jayatilaka, Geng-Yuan Jeng, K. A. Johns, Toshiaki Kaji, Gregor Kasieczka, Yevgeny Kats, Malgorzata Kazana, Henning Keller, Maxim Yu Khlopov, Felix Kling, Ted R. Kolberg, Igor Kostiuk, Emma Sian Kuwertz, Audrey Kvam, Greg Landsberg, Gaia Lanfranchi, Inaki Lara, Alexander Ledovskoy, Dylan Linthorne, Jia Liu, Iacopo Longarini, Steven Lowette, Henry Lubatti, Margaret Lutz, Jingyu Luo, Judita Mamuzic, Matthieu Marinangeli, Alberto Mariotti, Daniel Marlow, Matthew McCullough, Kevin McDermott, P. Mermod, David Milstead, Siddharth Mishra-Sharma, Vasiliki A. Mitsou, Javier Montejo Berlingen, Filip Moortgat, Alessandro Morandini, Alice Polyxeni Morris, David Michael Morse, Stephen Mrenna, Benjamin Nachman, Miha Nemevsek, Fabrizio Nesti, Christian Ohm, Silvia Pascoli, Kevin Pedro, Cristian Pena, Karla Josefina Pena Rodriguez, Jonatan Piedra, James L. Pinfold, Antonio Policicchio, Goran Popara, Jessica Prisciandaro, Mason Proffitt, Giorgia Rauco, Federico Redi, Matthew Reece, Allison Reinsvold Hall, H. Rejeb Sfar, Sophie Renner, Dean Robinson, Amber Roepe, Manfredi Ronzani, Ennio Salvioni, Arka Santra, Ryu Sawada, Jakub Scholtz, Philip Schuster, Pedro Schwaller, Cristiano Sebastiani, Sezen Sekmen, Michele Selvaggi, Weinan Si, Livia Soffi, Daniel Stolarski, David Stuart, John Stupak III, Kevin Sung, Wendy Taylor, Sebastian Templ, Brooks Thomas, Emma Torro-Pastor, Daniele Trocino, Sebastian Trojanowski, Marco Trovato, Yuhsin Tsai, C. G. Tully, Tamas almos Vami, Juan Carlos Vasquez, Carlos Vazquez Sierra, K. Vellidis, Basile Vermassen, Martina Vit, Devin G. E. Walker, Xiao-Ping Wang, Gordon Watts, Si Xie, Melissa Yexley, Charles Young, Jiang-Hao Yu, Piotr Zalewski, Yongchao Zhang
JOURNAL OF PHYSICS G-NUCLEAR AND PARTICLE PHYSICS
(2020)
Article
Physics, Nuclear
Jonathan L. Feng, Felix Kling, Mary Hall Reno, Juan Rojo, Dennis Soldin, Luis A. Anchordoqui, Jamie Boyd, Ahmed Ismail, Lucian Harland-Lang, Kevin J. Kelly, Vishvas Pandey, Sebastian Trojanowski, Yu-Dai Tsai, Jean-Marco Alameddine, Takeshi Araki, Akitaka Ariga, Tomoko Ariga, Kento Asai, Alessandro Bacchetta, Kincso Balazs, Alan J. Barr, Michele Battistin, Jianming Bian, Caterina Bertone, Weidong Bai, Pouya Bakhti, A. Baha Balantekin, Basabendu Barman, Brian Batell, Martin Bauer, Brian Bauer, Mathias Becker, Asher Berlin, Enrico Bertuzzo, Atri Bhattacharya, Marco Bonvini, Stewart T. Boogert, Alexey Boyarsky, Joseph Bramante, Vedran Brdar, Adrian Carmona, David W. Casper, Francesco Giovanni Celiberto, Francesco Cerutti, Grigorios Chachamis, Garv Chauhan, Matthew Citron, Emanuele Copello, Jean-Pierre Corso, Luc Darme, Raffaele Tito D'Agnolo, Neda Darvishi, Arindam Das, Giovanni De Lellis, Albert De Roeck, Jordy de Vries, Hans P. Dembinski, Sergey Demidov, Patrick DeNiverville, Peter B. Denton, Frank F. Deppisch, P. S. Bhupal Dev, Antonia Di Crescenzo, Keith R. Dienes, Milind Diwan, Herbi K. Dreiner, Yong Du, Bhaskar Dutta, Pit Duwentaester, Lucie Elie, Sebastian A. R. Ellis, Rikard Enberg, Yasaman Farzan, Max Fieg, Ana Luisa Foguel, Patrick Foldenauer, Saeid Foroughi-Abari, Jean-Francois Fortin, Alexander Friedland, Elina Fuchs, Michael Fucilla, Kai Gallmeister, Alfonso Garcia, Carlos A. Garcia Canal, Maria Vittoria Garzelli, Rhorry Gauld, Sumit Ghosh, Anish Ghoshal, Stephen Gibson, Francesco Giuli, Victor P. Goncalves, Dmitry Gorbunov, Srubabati Goswami, Silvia Grau, Julian Y. Guenther, Marco Guzzi, Andrew Haas, Timo Hakulinen, Steven P. Harris, Julia Harz, Juan Carlos Helo Herrera, Christopher S. Hill, Martin Hirsch, Timothy J. Hobbs, Stefan Hoche, Andrzej Hryczuk, Fei Huang, Tomohiro Inada, Angelo Infantino, Ameen Ismail, Richard Jacobsson, Sudip Jana, Yu Seon Jeong, Yongsoo Jho, Dmitry Kalashnikov, Timo J. Karkkainen, Cynthia Keppel, Jongkuk Kim, Michael Klasen, Spencer R. Klein, Pyungwon Ko, Dominik Koehler, Masahiro Komatsu, Karol Kovarik, Suchita Kulkarni, Jason Kumar, Karan Kumar, Jui-Lin Kuo, Frank Krauss, Aleksander Kusina, Maxim Laletin, Chiara Le Roux, Seung J. Lee, Hye-Sung Lee, Helena Lefebvre, Jinmian Li, Shuailong Li, Yichen Li, Wei Liu, Zhen Liu, Mickael Lonjon, Kun-Feng Lyu, Rafal Maciula, Roshan Mammen Abraham, Mohammad R. Masouminia, Josh McFayden, Oleksii Mikulenko, Mohammed M. A. Mohammed, Kirtimaan A. Mohan, Jorge G. Morfin, Ulrich Mosel, Martin Mosny, Khoirul F. Muzakka, Pavel Nadolsky, Toshiyuki Nakano, Saurabh Nangia, Angel Navascues Cornago, Laurence J. Nevay, Pierre Ninin, Emanuele R. Nocera, Takaaki Nomura, Rui Nunes, Nobuchika Okada, Fred Olness, John Osborne, Hidetoshi Otono, Maksym Ovchynnikov, Alessandro Papa, Junle Pei, Guillermo Peon, Gilad Perez, Luke Pickering, Simon Plaetzer, Ryan Plestid, Tanmay Kumar Poddar, Pablo Quilez, Mudit Rai, Meshkat Rajaee, Digesh Raut, Peter Reimitz, Filippo Resnati, Wolfgang Rhode, Peter Richardson, Adam Ritz, Hiroki Rokujo, Leszek Roszkowski, Tim Ruhe, Richard Ruiz, Marta Sabate-Gilarte, Alexander Sandrock, Ina Sarcevic, Subir Sarkar, Osamu Sato, Christiane Scherb, Ingo Schienbein, Holger Schulz, Pedro Schwaller, Sergio J. Sciutto, Dipan Sengupta, Lesya Shchutska, Takashi Shimomura, Federico Silvetti, Kuver Sinha, Torbjorn Sjostrand, Jan T. Sobczyk, Huayang Song, Jorge F. Soriano, Yotam Soreq, Anna Stasto, David Stuart, Shufang Su, Wei Su, Antoni Szczurek, Zahra Tabrizi, Yosuke Takubo, Marco Taoso, Brooks Thomas, Pierre Thonet, Douglas Tuckler, Agustin Sabio Vera, Heinz Vincke, K. N. Vishnudath, Zeren Simon Wang, Martin W. Winkler, Wenjie Wu, Keping Xie, Xun-Jie Xu, Tevong You, Ji-Young Yu, Jiang-Hao Yu, Korinna Zapp, Yongchao Zhang, Yue Zhang, Guanghui Zhou, Renata Zukanovich Funchal
Summary: High energy collisions at the High-Luminosity Large Hadron Collider (LHC) produce a large number of particles beyond the acceptance of existing experiments. The proposed Forward Physics Facility (FPF) will host experiments to probe standard model processes and search for physics beyond the standard model (BSM). FPF experiments will explore BSM physics through searches for new particle scattering or decay signatures and deviations from SM expectations in a low-background environment.
JOURNAL OF PHYSICS G-NUCLEAR AND PARTICLE PHYSICS
(2023)
Article
Physics, Multidisciplinary
Henso Abreu, John Anders, Claire Antel, Akitaka Ariga, Tomoko Ariga, Jeremy Atkinson, Florian U. Bernlochner, Tobias Blesgen, Tobias Boeckh, Jamie Boyd, Lydia Brenner, Franck Cadoux, David W. Casper, Charlotte Cavanagh, Xin Chen, Andrea Coccaro, Ansh Desai, Sergey Dmitrievsky, Monica D'Onofrio, Yannick Favre, Deion Fellers, Jonathan L. Feng, Carlo Alberto Fenoglio, Didier Ferrere, Stephen Gibson, Sergio Gonzalez-Sevilla, Yuri Gornushkin, Carl Gwilliam, Daiki Hayakawa, Shih-Chieh Hsu, Zhen Hu, Giuseppe Iacobucci, Tomohiro Inada, Sune Jakobsen, Hans Joos, Enrique Kajomovitz, Hiroaki Kawahara, Alex Keyken, Felix Kling, Daniela Koeck, Umut Kose, Rafaella Kotitsa, Susanne Kuehn, Helena Lefebvre, Lorne Levinson, Ke Li, Jinfeng Liu, Jack Macdonald, Chiara Magliocca, Fulvio Martinelli, Josh Mcfayden, Matteo Milanesio, Dimitar Mladenov, Theo Moretti, Magdalena Munker, Mitsuhiro Nakamura, Toshiyuki Nakano, Marzio Nessi, Friedemann Neuhaus, Laurie Nevay, Hidetoshi Otono, Hao Pang, Lorenzo Paolozzi, Brian Petersen, Francesco Pietropaolo, Markus Prim, Michaela Queitsch-Maitland, Filippo Resnati, Hiroki Rokujo, Elisa Ruiz-Choliz, Jorge Sabater-Iglesias, Osamu Sato, Paola Scampoli, Kristof Schmieden, Matthias Schott, Anna Sfyrla, Savannah Shively, Yosuke Takubo, Noshin Tarannum, Ondrej Theiner, Eric Torrence, Serhan Tufanli, Svetlana Vasina, Benedikt Vormwald, Di Wang, Eli Welch
Summary: This study reports the first direct observation of neutrino interactions at a particle collider experiment. Using the active electronic components of the FASER detector at the Large Hadron Collider, neutrino candidate events were identified in a 13.6 TeV center-of-mass energy pp collision dataset of 35.4 fb-1. The observed events are consistent with the expected characteristics of neutrino interactions in terms of secondary particle production and spatial distribution, indicating the observation of neutrinos and anti-neutrinos with an incident neutrino energy significantly above 200 GeV.
PHYSICAL REVIEW LETTERS
(2023)
Article
Astronomy & Astrophysics
Jason Arakawa, Jonathan L. Feng, Ahmed Ismail, Felix Kling, Michael Waterbury
Summary: The detection of collider neutrinos at TeV energies during LHC run 3 is expected to provide valuable insights on their production, propagation, and interactions. The FASER experiment, specifically its emulsion-based neutrino detector FASER nu, is projected to detect approximately 10^4 collider neutrinos. This study demonstrates that even without processing the emulsion data, the low-level input from the electronic detector components of FASER and FASER nu can establish a 5 sigma discovery of collider neutrinos with as little as 5 fb(-1) of integrated luminosity. These findings suggest the potential early discovery of collider neutrinos in LHC run 3.
Article
Astronomy & Astrophysics
Brian Batell, Jonathan L. Feng, Max Fieg, Ahmed Ismail, Felix Kling, Roshan Mammen Abraham, Sebastian Trojanowski
Summary: This comprehensive study explores hadrophilic models with U(1)(B) and U(1)(B-3L tau) gauge bosons coupled to light dark matter. The study reveals that these models predict a range of new signatures that can be observed in current and near future experiments, providing new directions and clues for further particle physics research.
Article
Astronomy & Astrophysics
Sreemanti Chakraborti, Jonathan L. Feng, James K. Koga, Mauro Valli
Summary: The gamma factory proposal aims to produce high-energy photon beams at the LHC for discovering weakly-interacting particles. It has the potential to detect couplings lower than other terrestrial experiments and complements astrophysical observations.
Article
Astronomy & Astrophysics
Brian Batell, Jonathan L. Feng, Ahmed Ismail, Felix Kling, Roshan Mammen Abraham, Sebastian Trojanowski
Summary: Researchers investigate the potential for detecting dark matter produced by the LHC in two forward detectors, focusing on nuclear scattering phenomena, and find new parameter space for dark matter masses in the range 5 MeV less than or similar to m(chi) less than or similar to 500 MeV. Combining with previous studies on DM-electron scattering, FASER nu 2 and FLArE have the capability to discover dark matter in a significant portion of the cosmologically favored parameter space with MeV less than or similar to m(chi) less than or similar to GeV.
Article
Astronomy & Astrophysics
Brian Batell, Jonathan L. Feng, Sebastian Trojanowski
Summary: Research suggests that new light particles may be produced at the LHC's far-forward region and decay into dark matter, which can be detected through scattering. Specific detectors can effectively detect these dark matter events, sensitively probing the thermal relic region of parameter space.
Article
Astronomy & Astrophysics
Jonathan L. Feng, Tim M. P. Tait, Christopher B. Verhaaren
Article
Astronomy & Astrophysics
Alakabha Datta, Jonathan L. Feng, Saeed Kamali, Jacky Kumar
Proceedings Paper
Astronomy & Astrophysics
Jonathan L. Feng
ILLUMINATING DARK MATTER
(2019)
Article
Astronomy & Astrophysics
Akitaka Ariga, Tomoko Ariga, Jamie Boyd, Franck Cadoux, David W. Casper, Yannick Favre, Jonathan L. Feng, Didier Ferrere, Iftah Galon, Sergio Gonzalez-Sevilla, Shih-Chieh Hsu, Giuseppe Iacobucci, Enrique Kajomovitz, Felix Kling, Susanne Kuehn, Lorne Levinson, Hidetoshi Otono, Brian Petersen, Osamu Sato, Matthias Schott, Anna Sfyrla, Jordan Smolinsky, Aaron M. Soffa, Yosuke Takubo, Eric Torrence, Sebastian Trojanowski, Gang Zhang
Article
Astronomy & Astrophysics
Jonathan L. Feng, Iftah Galon, Felix Kling, Sebastian Trojanowski