# Searching for long-lived particles beyond the Standard Model at the   Large Hadron Collider

**Authors:** Juliette Alimena (1), James Beacham (2), Martino Borsato (3), Yangyang, Cheng (4), Xabier Cid Vidal (5), Giovanna Cottin (6), Albert De Roeck (7),, Nishita Desai (8), David Curtin (9), Jared A. Evans (10), Simon Knapen (11),, Sabine Kraml (12), Andre Lessa (13), Zhen Liu (14), Sascha Mehlhase (15),, Michael J. Ramsey-Musolf (16, 126), Heather Russell (17), Jessie Shelton, (18), Brian Shuve (19, 20), Monica Verducci (21), Jose Zurita (22, 23),, Todd Adams (24), Michael Adersberger (25), Cristiano Alpigiani (26), Artur, Apresyan (83), Robert John Bainbridge (27), Varvara Batozskaya (28), Hugues, Beauchesne (29), Lisa Benato (30), S. Berlendis (31), Eshwen Bhal (32), Freya, Blekman (33), Christina Borovilou (34), Jamie Boyd (7), Benjamin P. Brau, (35), Lene Bryngemark (36), Oliver Buchmueller (27), Malte Buschmann (37),, William Buttinger (7), Mario Campanelli (38), Cari Cesarotti (39), Chunhui, Chen (40), Hsin-Chia Cheng (41), Sanha Cheong (42, 43), Matthew Citron, (44), Andrea Coccaro (45), V. Coco (7), Eric Conte (46), F\'elix Cormier, (47), Louie D. Corpe (38), Nathaniel Craig (44), Yanou Cui (20), Elena, Dall'Occo (48), C. Dallapiccola (35), M.R. Darwish (49), Alessandro Davoli, (50, 52), Annapaola de Cosa (51), Andrea De Simone (50, 52), Luigi, Delle Rose (53, 54), Frank F. Deppisch (38), Biplab Dey (55), Miriam D., Diamond (9), Keith R. Dienes (31, 56), Sven Dildick (57), Babette, D\"obrich (7), Marco Drewes (58), Melanie Eich (30), M. ElSawy (5, 60),, Alberto Escalante del Valle (61), Gabriel Facini (38), Marco Farina (62),, Jonathan L. Feng (63), Oliver Fischer (22), H.U. Flaecher (32), Patrick, Foldenauer (64), Marat Freytsis (65, 11, 66), Benjamin Fuks (67 and, 68), Iftah Galon (69), Yuri Gershtein (70), Stefano Giagu (71), Andrea, Giammanco (58), Vladimir V. Gligorov (72), Tobias Golling (73), Sergio, Grancagnolo (74), Giuliano Gustavino (75), Andrew Haas (76), Kristian Hahn, (77), Jan Hajer (58), Ahmed Hammad (78), Lukas Heinrich (7), Jan Heisig (58),, J.C. Helo (79), Gavin Hesketh (38), Christopher S. Hill (1), Martin Hirsch, (80), M. Hohlmann (81), W. Hulsbergen (48), John Huth (39), Philip Ilten, (82), Thomas Jacques (50), Bodhitha Jayatilaka (83), Geng-Yuan Jeng (56),, K.A. Johns (31), Toshiaki Kaji (84), Gregor Kasieczka (30), Yevgeny Kats, (29), Malgorzata Kazana (85), Henning Keller (86), Maxim Yu. Khlopov (87 and, 88), Felix Kling (63), Ted R. Kolberg (24), Igor Kostiuk (48, 127), Emma, Sian Kuwertz (7), Audrey Kvam (26), Greg Landsberg (89), Gaia Lanfranchi (90, and 7), I\~naki Lara (91), Alexander Ledovskoy (92), Dylan Linthorne (93),, Jia Liu (94), Iacopo Longarini (95), Steven Lowette (33), Henry Lubatti (26),, Margaret Lutz (35), Jingyu Luo (96), Judita Mamu\v{z}i\'c (80), Matthieu, Marinangeli (97), Alberto Mariotti (33), Daniel Marlow (96), Matthew, McCullough (7), Kevin McDermott (4), P. Mermod (73), David Milstead (98),, Vasiliki A. Mitsou (80), Javier Montejo Berlingen (7), Filip Moortgat (7 and, 99), Alessandro Morandini (50, 52), Alice Polyxeni Morris (38), David, Michael Morse (100), Stephen Mrenna (83), Benjamin Nachman (101), Miha, Nemev\v{s}ek (102), Fabrizio Nesti (103), Christian Ohm (104, 105), Silvia, Pascoli (106), Kevin Pedro (83), Cristi\'an Pe\~na (83, 107), Karla, Josefina Pena Rodriguez (30), J\'onatan Piedra (108), James L. Pinfold (109),, Antonio Policicchio (71), Goran Popara (110), Jessica Prisciandaro (58),, Mason Proffitt (26), Giorgia Rauco (51), Federico Redi (97), Matthew Reece, (39), Allison Reinsvold Hall (83), H. Rejeb Sfar (49), Sophie Renner (112),, Amber Roepe (75), Manfredi Ronzani (76), Ennio Salvioni (113), Arka Santra, (80), Ryu Sawada (114), Jakub Scholtz (106), Philip Schuster (42), Pedro, Schwaller (112), Cristiano Sebastiani (71), Sezen Sekmen (115), Michele, Selvaggi (7), Weinan Si (20), Livia Soffi (71), Daniel Stolarski (93), David, Stuart (44), John Stupak III (75), Kevin Sung (77), Wendy Taylor (116),, Sebastian Templ (61), Brooks Thomas (117), Emma Torr\'o-Pastor (26), Daniele, Trocino (99), Sebastian Trojanowski (118), Marco Trovato (119), Yuhsin Tsai, (14), C.G. Tully (96), Tam\'as \'Almos V\'ami (120), Juan Carlos Vasquez, (121), Carlos V\'azquez Sierra (48), K. Vellidis (34), Basile Vermassen (99),, Martina Vit (99), Devin G.E. Walker (122), Xiao-Ping Wang (119), Gordon Watts, (26), Si Xie (107), Melissa Yexley (123), Charles Young (42), Jiang-Hao Yu, (124, 16), Piotr Zalewski (85), Yongchao Zhang (125) ((1) The Ohio State, University, (2) Duke University, (3) Ruprecht-Karls-Universit\"at Heidelberg,, (4) Cornell University, (5) U. Santiago de Compostela, (6) National Taiwan, University, (7) CERN, (8) Tata Institute of Fundamental Physics, (9), University of Toronto, (10) University of Cincinnati, (11) Institute for, Advanced Study, (12) Universit\'e Grenoble-Alpes, CNRS/IN2P3, (13), Universidade Federal do ABC, (14) University of Maryland, (15), Ludwig-Maximilians-Universit\"at M\"unchen, (16) University of Massachusetts,, Amherst, (17) McGill University, (18) University of Illinois at, Urbana-Champaign, (19) Harvey Mudd College, (20) University of California,, Riverside, (21) Universit\`a di Roma Tre, INFN, (22) Karlsruhe Institute, of Technology, (23) Karlsruhe Institute of Technology, (24) Florida State, University, (25) Ludwig-Maximilians-Universit\"at M\"unchen, (26) University, of Washington, (27) Imperial College, (28) National Centre for Nuclear, Research (NCBJ), Warsaw, Poland, (29) Ben-Gurion University, (30), Universit\"at Hamburg, (31) University of Arizona, (32) University of, Bristol, (33) Vrije Universiteit Brussel, (34) National, Kapodistrian, University of Athens, (35) University of Massachusetts, Amherst, (36) Lund, University, (37) University of Michigan, (38) University College London, (39), Harvard University, (40) Iowa State University, (41) University of, California, Davis, (42) SLAC National Accelerator Laboratory, (43) Stanford, University, (44) University of California, Santa Barbara, (45) INFN Sezione, di Genova, (46) Universit\'e de Strasbourg/CNRS-IN2P3, (47) The University of, British Columbia, (48) Nikhef National Institute for Subatomic Physics, (49), Antwerp University, (50) SISSA, (51) University of Z\"urich, (52) INFN, Sezione di Trieste, (53) University of Florence, (54) University of, Southampton, (55) Central China Normal University, (56) University of, Maryland, (57) Texas A&M University, (58) Universit\'e catholique de Louvain,, (59) The British University in Egypt, (60) Beni Suef University, (61), Austrian Academy of Sciences, (62) Stony Brook University, (63) University of, California, Irvine, (64) Universit\"at Heidelberg, (65) Tel Aviv University,, (66) University of Oregon, (67) Sorbonne Universit\'e et CNRS, (68) Institut, Universitaire de France, (69) Rutgers, The State University of New Jersey,, (70) Rutgers University, (71) Sapienza Universit\`a di Roma, INFN Roma,, (72) Sorbonne Universit\'e, CNRS/IN2P3, (73) Universit\'e de Gen\`eve, (74), Humboldt-Universit\"at, (75) The University of Oklahoma, (76) New York, University, (77) Northwestern University, (78) University of Basel, (79), Universidad de La Serena, (80) University of Valencia, (81) Florida Institute, of Technology, (82) University of Birmingham, (83) Fermi National Accelerator, Laboratory, (84) Waseda University, (85) National Centre for Nuclear Research, (NCBJ), (86) RWTH Aachen University, (87) National Research Nuclear, University, MEPHI, (88) APC Laboratory, (89) Brown University, (90), Laboratori Nazionali di Frascati, INFN, (91) Instituto de F\'isica Te\'orica, (UAM-CSIC), (92) University of Virginia, (93) Carleton University, (94), University of Chicago, (95) Universit\`a degli studi di Roma, La Sapienza,, and INFN Roma, (96) Princeton University, (97) \'Ecole Polytechnique, F\'ed\'erale de Lausanne, (98) Stockholms Universitet, (99) University of, Ghent, (100) Northeastern University, (101) Lawrence Berkeley National, Laboratory, (102) Jo\v{z}ef Stefan Institute, (103) Universit\`a dell'Aquila,, (104) KTH Royal Institute of Technology, (105) Stockholm University, (106), Durham University, (107) California Institute of Technology, (108) IFCA (CSIC, - Universidad de Cantabria), (109) University of Alberta, (110) Ru{\dj}er, Bo\v{s}kovi\'c Institute, (111) Universit\'e catholique de Louvain, (112), Johannes Gutenberg University, (113) Technical University of Munich, (114), The University of Tokyo, (115) Kyungpook National University, (116) York, University, (117) Lafayette College, (118) University of Sheffield, (119), Argonne National Laboratory, (120) Wigner Research Centre for Physics, (121), Universidad T\'ecnica Federico Santa Mar\'ia, (122) Dartmouth College, (123), Lancaster University, (124) Chinese Academy of Sciences, (125) Washington, University, St. Louis, (126) Shanghai Jiao Tong University, (127) Institute, for Nuclear Research of the National Academy of Sciences (KINR), Kyiv,, Ukraine)

arXiv: 1903.04497 · 2020-09-11

## TL;DR

This paper reviews the current and future strategies for detecting long-lived particles at the LHC, emphasizing the importance of diverse signatures, detector upgrades, and comprehensive search approaches to uncover new physics beyond the Standard Model.

## Contribution

It provides a comprehensive survey of LLP search techniques at the LHC, including model frameworks, background understanding, and recommendations for future experimental developments.

## Key findings

- Current searches cover a wide range of LLP signatures
- Detector upgrades can significantly enhance LLP detection capabilities
- High-multiplicity dark showers present new discovery opportunities

## Abstract

Particles beyond the Standard Model (SM) can generically have lifetimes that are long compared to SM particles at the weak scale. When produced at experiments such as the Large Hadron Collider (LHC) at CERN, these long-lived particles (LLPs) can decay far from the interaction vertex of the primary proton-proton collision. Such LLP signatures are distinct from those of promptly decaying particles that are targeted by the majority of searches for new physics at the LHC, often requiring customized techniques to identify, for example, significantly displaced decay vertices, tracks with atypical properties, and short track segments. Given their non-standard nature, a comprehensive overview of LLP signatures at the LHC is beneficial to ensure that possible avenues of the discovery of new physics are not overlooked. Here we report on the joint work of a community of theorists and experimentalists with the ATLAS, CMS, and LHCb experiments --- as well as those working on dedicated experiments such as MoEDAL, milliQan, MATHUSLA, CODEX-b, and FASER --- to survey the current state of LLP searches at the LHC, and to chart a path for the development of LLP searches into the future, both in the upcoming Run 3 and at the High-Luminosity LHC. The work is organized around the current and future potential capabilities of LHC experiments to generally discover new LLPs, and takes a signature-based approach to surveying classes of models that give rise to LLPs rather than emphasizing any particular theory motivation. We develop a set of simplified models; assess the coverage of current searches; document known, often unexpected backgrounds; explore the capabilities of proposed detector upgrades; provide recommendations for the presentation of search results; and look towards the newest frontiers, namely high-multiplicity "dark showers", highlighting opportunities for expanding the LHC reach for these signals.

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Source: https://tomesphere.com/paper/1903.04497