THE FUTURE OF DARK MATTER AND DARK FORCES

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Transcription:

THE FUTURE OF DARK MATTER AND DARK FORCES International Symposium on the Future of Physics and Astronomy T. D. Lee Institute, Shanghai Jiao Tong University Jonathan Feng, University of California, Irvine 16 September 2017 16 Sep 2017 Feng 1

A HAPPY OCCASION Birthplace of my father in 1937 16 Sep 2017 Feng 2

DARK MATTER The Future of Physics and Astronomy : Identifying dark matter is a central problem in both fields, and appreciation of its importance has grown rapidly in recent years 1997 2007 2017 LHC LHC LHC Gauge Hierarchy Dark Matter Higgs Boson Gauge Hierarchy Higgs Boson Dark Matter Gauge Hierarchy Higgs Boson Standard Model 16 Sep 2017 Feng 3

CLASSIC CANDIDATES Three excellent candidates: sterile neutrinos, axions, WIMPs Axions are highly motivated by the strong CP problem Peccei, Quinn (1977); Wilczek (1978); Weinberg (1978) For axion DM, if θ i ~1, then f a ~ 10 12 GeV m a ~ 1-100 µev Graham, Irastorza, Lamoreaux, Lindner, van Bibber (2016) 16 Sep 2017 Feng 4

LATEST RESULTS: ADMX G2 van Bibber (2017) 16 Sep 2017 Feng 5

WIMPs The WIMP Miracle WIMP Searches X X q _ q Feng (2008) The WIMP miracle motivates diverse experiments that are (unfortunately) bigger, longer, and more expensive 16 Sep 2017 Feng 6

DIRECT DETECTION EXPERIMENTS (2013) Asymmetric n DM ~ n B 16 Sep 2017 Feng 7

LATEST RESULTS: PandaX-II 16 Sep 2017 Feng 8

RECENT DEVELOPMENTS In the last few years, these classic candidates have been generalized to broad classes of dark matter Axions à Axion-like Particles (ALPs) à Ultralight DM WIMPs à WIMPless DMà Hidden Sector DM New motivations, new anomalies, and new experimental search techniques have been identified, leading to a flurry of activity 16 Sep 2017 Feng 9

DM CANDIDATES, ANOMALIES, SEARCH TECHNIQUES zev aev fev pev nev µev mev ev kev MeV GeV TeV PeV 30M QCD Axion Ultralight Dark Matter WIMPs Hidden Sector Dark Matter Hidden Thermal Relics / WIMPless DM Asymmetric DM Freeze-In DM SIMPs / ELDERS Beryllium-8 Muon g-2 Small-Scale Structure Black Holes Coherent Field Searches, Direct Detection, Nuclear and Atomic Physics, Accelerators Microlensing zev aev fev pev nev µev mev ev kev MeV GeV TeV PeV 30M 16 Sep 2017 Cosmic Visions White Paper (2017) Feng 10

DARK SECTORS All evidence for dark matter is gravitational. Perhaps it s in a hidden sector, composed of particles with no SM gauge interactions (electromagnetic, weak, strong) Lee, Yang (1956); Kobsarev, Okun, Pomeranchuk (1966); Blinnikov, Khlopov (1982); Foot, Lew, Volkas (1991); Hodges (1993); Berezhiani, Dolgov, Mohapatra (1995);... SM Hidden X This hidden sector may have a rich structure with matter and forces of its own 16 Sep 2017 Feng 11

WIMPLESS DARK MATTER Recall the WIMP miracle: Feng, Kumar (2008); Feng, Tu, Yu (2008) WIMPs But now g X doesn t have to be 0.6! Additional motivations: SUSY with GMSB or AMSB, small scale structure,... WIMPless DM WIMPless Miracle à light, extremely weakly-coupled particles; new connections to other fields; smaller, faster, cheaper expts 16 Sep 2017 Feng 12

AN EXAMPLE: NUCLEAR PHYSICS One can look for < 20 MeV new particles in decays of excited nuclei Treiman, Wilczek (1978); Donnelly, Freedman, Lytel, Peccei, Schwartz (1978) In particular, in rare internal pair creation events, can look for 8 Be* à 8 Be X à 8 Be e + e - signal [ 8 Be* à 8 Be γ à 8 Be e + e - background] 16 Sep 2017 Feng 13

THE BERYLLIUM ANOMALY AND DARK FORCES ATOMKI group has seen a 6.8σ excess at e + e - opening angles of 135 deg This can be consistently explained by a new 17 MeV boson, 5 th force Krasznahorkay et al. (2015) Feng, Fornal, Galon, Gardner, Smolinsky, Tait, Tanedo (2016); Gu, He (2016); Ellwanger, Moretti (2016); Kozaczuk, Morrissey, Stroberg (2016);... There is now preliminary supporting evidence from the ATOMKI group, proposed followups (~$750K, 1 year) 16 Sep 2017 Feng 14

CONCLUSIONS Dark matter is one of the great scientific puzzles of our time and is leading evidence for new particles and forces Classic candidates remain attractive... - Dark matter: sterile neutrinos, axions, WIMPs - WIMP miracle: heavy and weakly coupled - Experiments: bigger, longer, more expensive...but a new paradigm is also emerging - Dark sector: dark Higgs, dark fermions, dark gauge bosons - WIMPless miracle: light and extremely weakly coupled - Experiments: smaller, faster, cheaper 16 Sep 2017 Feng 15

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