Về sự tương tác giữa các phương pháp thăm dò thiên văn và phòng thí nghiệm của các hạt giống axion ở quy mô MeV
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#axion-like particles #ALPs #photon interaction #astrophysical constraints #laboratory experiments #SN1987A #parameter spaceTài liệu tham khảo
R.D. Peccei and H.R. Quinn, CP Conservation in the Presence of Instantons, Phys. Rev. Lett. 38 (1977) 1440 [INSPIRE].
R.D. Peccei and H.R. Quinn, Constraints Imposed by CP Conservation in the Presence of Instantons, Phys. Rev. D 16 (1977) 1791 [INSPIRE].
F. Wilczek, Problem of Strong P and T Invariance in the Presence of Instantons, Phys. Rev. Lett. 40 (1978) 279 [INSPIRE].
M.J. Dolan, F. Kahlhoefer, C. McCabe and K. Schmidt-Hoberg, A taste of dark matter: Flavour constraints on pseudoscalar mediators, JHEP 03 (2015) 171 [Erratum ibid. 07 (2015) 103] [arXiv:1412.5174] [INSPIRE].
C. Boehm, M.J. Dolan, C. McCabe, M. Spannowsky and C.J. Wallace, Extended gamma-ray emission from Coy Dark Matter, JCAP 05 (2014) 009 [arXiv:1401.6458] [INSPIRE].
P. Tunney, J.M. No and M. Fairbairn, Probing the pseudoscalar portal to dark matter via $$ \overline{b} bZ $$ (→ℓℓ) + ɆT : From the LHC to the Galactic Center excess, Phys. Rev. D 96 (2017) 095020 [arXiv:1705.09670] [INSPIRE].
G. Arcadi, M. Lindner, F.S. Queiroz, W. Rodejohann and S. Vogl, Pseudoscalar Mediators: A WIMP model at the Neutrino Floor, JCAP 03 (2018) 042 [arXiv:1711.02110] [INSPIRE].
F. Kahlhoefer, K. Schmidt-Hoberg and S. Wild, Dark matter self-interactions from a general spin-0 mediator, JCAP 08 (2017) 003 [arXiv:1704.02149] [INSPIRE].
T. Abe, M. Fujiwara and J. Hisano, Loop corrections to dark matter direct detection in a pseudoscalar mediator dark matter model, JHEP 02 (2019) 028 [arXiv:1810.01039] [INSPIRE].
F. Ertas and F. Kahlhoefer, Loop-induced direct detection signatures from CP-violating scalar mediators, JHEP 06 (2019) 052 [arXiv:1902.11070] [INSPIRE].
R. Daido, S.-Y. Ho and F. Takahashi, Hidden monopole dark matter via axion portal and its implications for direct detection searches, beam-dump experiments and the H0 tension, JHEP 01 (2020) 185 [arXiv:1909.03627] [INSPIRE].
Y. Hochberg, E. Kuflik, R. Mcgehee, H. Murayama and K. Schutz, Strongly interacting massive particles through the axion portal, Phys. Rev. D 98 (2018) 115031 [arXiv:1806.10139] [INSPIRE].
G. Alonso-Álvarez, R.S. Gupta, J. Jaeckel and M. Spannowsky, On the Wondrous Stability of ALP Dark Matter, JCAP 03 (2020) 052 [arXiv:1911.07885] [INSPIRE].
G. Arcadi, G. Busoni, T. Hugle and V.T. Tenorth, Comparing 2HDM + Scalar and Pseudoscalar Simplified Models at LHC, JHEP 06 (2020) 098 [arXiv:2001.10540] [INSPIRE].
K. Choi, S.H. Im, C.B. Park and S. Yun, Minimal Flavor Violation with Axion-like Particles, JHEP 11 (2017) 070 [arXiv:1708.00021] [INSPIRE].
B. Döbrich, F. Ertas, F. Kahlhoefer and T. Spadaro, Model-independent bounds on light pseudoscalars from rare B-meson decays, Phys. Lett. B 790 (2019) 537 [arXiv:1810.11336] [INSPIRE].
C. Cornella, P. Paradisi and O. Sumensari, Hunting for ALPs with Lepton Flavor Violation, JHEP 01 (2020) 158 [arXiv:1911.06279] [INSPIRE].
M. Bauer, M. Neubert, S. Renner, M. Schnubel and A. Thamm, Axion-like particles, lepton-flavor violation and a new explanation of aμ and ae, Phys. Rev. Lett. 124 (2020) 211803 [arXiv:1908.00008] [INSPIRE].
J. Martin Camalich, M. Pospelov, H. Vuong, R. Ziegler and J. Zupan, Quark Flavor Phenomenology of the QCD Axion, arXiv:2002.04623 [INSPIRE].
M.I. Vysotsky, Y. Zeldovich, M. Khlopov and V.M. Chechetkin, Some Astrophysical Limitations on Axion Mass, Pisma Zh. Eksp. Teor. Fiz. 27 (1978) 533 [INSPIRE].
G.G. Raffelt, Stars as laboratories for fundamental physics, University of Chicago Press (1996) [INSPIRE].
G.G. Raffelt, Astrophysical axion bounds, hep-ph/0611350 [INSPIRE].
J.S. Lee, Revisiting Supernova 1987A Limits on Axion-Like-Particles, arXiv:1808.10136 [INSPIRE].
J.H. Chang, R. Essig and S.D. McDermott, Supernova 1987A Constraints on Sub-GeV Dark Sectors, Millicharged Particles, the QCD Axion and an Axion-like Particle, JHEP 09 (2018) 051 [arXiv:1803.00993] [INSPIRE].
J. Jaeckel and L.J. Thormaehlen, Axions as a probe of solar metals, Phys. Rev. D 100 (2019) 123020 [arXiv:1908.10878] [INSPIRE].
D. Cadamuro and J. Redondo, Cosmological bounds on pseudo Nambu-Goldstone bosons, JCAP 02 (2012) 032 [arXiv:1110.2895] [INSPIRE].
M. Millea, L. Knox and B. Fields, New Bounds for Axions and Axion-Like Particles with keV-GeV Masses, Phys. Rev. D 92 (2015) 023010 [arXiv:1501.04097] [INSPIRE].
P.W. Graham, D.E. Kaplan and S. Rajendran, Cosmological Relaxation of the Electroweak Scale, Phys. Rev. Lett. 115 (2015) 221801 [arXiv:1504.07551] [INSPIRE].
S. Hoof and J. Jaeckel, QCD axions and axionlike particles in a two-inflation scenario, Phys. Rev. D 96 (2017) 115016 [arXiv:1709.01090] [INSPIRE].
S. Hoof, F. Kahlhoefer, P. Scott, C. Weniger and M. White, Axion global fits with Peccei-Quinn symmetry breaking before inflation using GAMBIT, JHEP 03 (2019) 191 [Erratum ibid. 11 (2019) 099] [arXiv:1810.07192] [INSPIRE].
P.F. Depta, M. Hufnagel and K. Schmidt-Hoberg, Robust cosmological constraints on axion-like particles, JCAP 05 (2020) 009 [arXiv:2002.08370] [INSPIRE].
CAST collaboration, Probing eV-scale axions with CAST, JCAP 02 (2009) 008 [arXiv:0810.4482] [INSPIRE].
R. Bähre et al., Any light particle search II — Technical Design Report, 2013 JINST 8 T09001 [arXiv:1302.5647] [INSPIRE].
E. Armengaud et al., Conceptual Design of the International Axion Observatory (IAXO), 2014 JINST 9 T05002 [arXiv:1401.3233] [INSPIRE].
S. Alekhin et al., A facility to Search for Hidden Particles at the CERN SPS: the SHiP physics case, Rept. Prog. Phys. 79 (2016) 124201 [arXiv:1504.04855] [INSPIRE].
P.W. Graham, I.G. Irastorza, S.K. Lamoreaux, A. Lindner and K.A. van Bibber, Experimental Searches for the Axion and Axion-Like Particles, Ann. Rev. Nucl. Part. Sci. 65 (2015) 485 [arXiv:1602.00039] [INSPIRE].
B. Döbrich, J. Jaeckel, F. Kahlhoefer, A. Ringwald and K. Schmidt-Hoberg, ALPtraum: ALP production in proton beam dump experiments, JHEP 02 (2016) 018 [arXiv:1512.03069] [INSPIRE].
A. Berlin, S. Gori, P. Schuster and N. Toro, Dark Sectors at the Fermilab SeaQuest Experiment, Phys. Rev. D 98 (2018) 035011 [arXiv:1804.00661] [INSPIRE].
D. Curtin et al., Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case, Rept. Prog. Phys. 82 (2019) 116201 [arXiv:1806.07396] [INSPIRE].
A. Berlin, N. Blinov, G. Krnjaic, P. Schuster and N. Toro, Dark Matter, Millicharges, Axion and Scalar Particles, Gauge Bosons and Other New Physics with LDMX, Phys. Rev. D 99 (2019) 075001 [arXiv:1807.01730] [INSPIRE].
FASER collaboration, FASER’s physics reach for long-lived particles, Phys. Rev. D 99 (2019) 095011 [arXiv:1811.12522] [INSPIRE].
H. Georgi, D.B. Kaplan and L. Randall, Manifesting the Invisible Axion at Low-energies, Phys. Lett. B 169 (1986) 73 [INSPIRE].
M. Bauer, M. Neubert and A. Thamm, Collider Probes of Axion-Like Particles, JHEP 12 (2017) 044 [arXiv:1708.00443] [INSPIRE].
I. Brivio et al., ALPs Effective Field Theory and Collider Signatures, Eur. Phys. J. C 77 (2017) 572 [arXiv:1701.05379] [INSPIRE].
M.B. Gavela, R. Houtz, P. Quilez, R. Del Rey and O. Sumensari, Flavor constraints on electroweak ALP couplings, Eur. Phys. J. C 79 (2019) 369 [arXiv:1901.02031] [INSPIRE].
G. Alonso-Álvarez, M.B. Gavela and P. Quilez, Axion couplings to electroweak gauge bosons, Eur. Phys. J. C 79 (2019) 223 [arXiv:1811.05466] [INSPIRE].
E. Izaguirre, T. Lin and B. Shuve, Searching for Axionlike Particles in Flavor-Changing Neutral Current Processes, Phys. Rev. Lett. 118 (2017) 111802 [arXiv:1611.09355] [INSPIRE].
NA62 collaboration, The Beam and detector of the NA62 experiment at CERN, 2017 JINST 12 P05025 [arXiv:1703.08501] [INSPIRE].
D. Aloni, Y. Soreq and M. Williams, Coupling QCD-Scale Axionlike Particles to Gluons, Phys. Rev. Lett. 123 (2019) 031803 [arXiv:1811.03474] [INSPIRE].
KLOE collaboration, Precision Kaon and Hadron Physics with KLOE, Riv. Nuovo Cim. 31 (2008) 531 [arXiv:0811.1929] [INSPIRE].
M.J. Dolan, T. Ferber, C. Hearty, F. Kahlhoefer and K. Schmidt-Hoberg, Revised constraints and Belle II sensitivity for visible and invisible axion-like particles, JHEP 12 (2017) 094 [arXiv:1709.00009] [INSPIRE].
J. Jaeckel, P.C. Malta and J. Redondo, Decay photons from the axionlike particles burst of type-II supernovae, Phys. Rev. D 98 (2018) 055032 [arXiv:1702.02964] [INSPIRE].
J. Jaeckel and A. Ringwald, The Low-Energy Frontier of Particle Physics, Ann. Rev. Nucl. Part. Sci. 60 (2010) 405 [arXiv:1002.0329] [INSPIRE].
J.L. Hewett et al., Fundamental Physics at the Intensity Frontier, arXiv:1205.2671.
B. Döbrich, J. Jaeckel and T. Spadaro, Light in the beam dump. Axion-Like Particle production from decay photons in proton beam-dumps, JHEP 05 (2019) 213 [arXiv:1904.02091] [INSPIRE].
F. Domingo, Decays of a NMSSM CP-odd Higgs in the low-mass region, JHEP 03 (2017) 052 [arXiv:1612.06538] [INSPIRE].
Particle Data Group collaboration, Review of Particle Physics, Phys. Rev. D 98 (2018) 030001 [INSPIRE].
G. Grilli di Cortona, E. Hardy, J. Pardo Vega and G. Villadoro, The QCD axion, precisely, JHEP 01 (2016) 034 [arXiv:1511.02867] [INSPIRE].
Z.-Y. Lu, M.-L. Du, F.-K. Guo, U.-G. Meißner and T. Vonk, QCD θ-vacuum energy and axion properties, JHEP 05 (2020) 001 [arXiv:2003.01625] [INSPIRE].
T. Vonk, F.-K. Guo and U.-G. Meißner, Precision calculation of the axion-nucleon coupling in chiral perturbation theory, JHEP 03 (2020) 138 [arXiv:2001.05327] [INSPIRE].
L. Di Luzio, F. Mescia, E. Nardi, P. Panci and R. Ziegler, Astrophobic Axions, Phys. Rev. Lett. 120 (2018) 261803 [arXiv:1712.04940] [INSPIRE].
E787 collaboration, Further search for the decay K + → π+ $$ v\overline{v} $$ in the momentum region P < 195 MeV/c, Phys. Rev. D 70 (2004) 037102 [hep-ex/0403034] [INSPIRE].
BNL-E949 collaboration, Study of the decay K + → π+ $$ v\overline{v} $$ in the momentum region 140 < Pπ < 199 MeV/c, Phys. Rev. D 79 (2009) 092004 [arXiv:0903.0030] [INSPIRE].
W.J. Marciano and Z. Parsa, Rare kaon decays with “missing energy”, Phys. Rev. D 53 (1996) 1 [INSPIRE].
N. Carrasco, P. Lami, V. Lubicz, L. Riggio, S. Simula and C. Tarantino, K → π semileptonic form factors with Nf = 2 + 1 + 1 twisted mass fermions, Phys. Rev. D 93 (2016) 114512 [arXiv:1602.04113] [INSPIRE].
W.A. Bardeen, R.D. Peccei and T. Yanagida, Constraints on variant axion models, Nucl. Phys. B 279 (1987) 401 [INSPIRE].
V. Cirigliano, G. Ecker, H. Neufeld and A. Pich, Isospin breaking in K → ππ decays, Eur. Phys. J. C 33 (2004) 369 [hep-ph/0310351] [INSPIRE].
V. Cirigliano, G. Ecker, H. Neufeld, A. Pich and J. Portoles, Kaon Decays in the Standard Model, Rev. Mod. Phys. 84 (2012) 399 [arXiv:1107.6001] [INSPIRE].
D.S.M. Alves and N. Weiner, A viable QCD axion in the MeV mass range, JHEP 07 (2018) 092 [arXiv:1710.03764] [INSPIRE].
T.N. Truong, Role of Square Root Threshold Singularity in Current Algebra and Chiral Symmetry Breaking Calculations of Kℓ3, Kℓ4 and τ → Kνπ Decays, Phys. Lett. B 99 (1981) 154 [INSPIRE].
I. Antoniadis and T.N. Truong, Lower Bound for Branching Ratio of K + → π+ Axion and Nonexistence of Peccei-Quinn Axion, Phys. Lett. B 109 (1982) 67 [INSPIRE].
B. Batell, M. Pospelov and A. Ritz, Multi-lepton Signatures of a Hidden Sector in Rare B Decays, Phys. Rev. D 83 (2011) 054005 [arXiv:0911.4938] [INSPIRE].
NA62 collaboration, First search for K + → π+ $$ v\overline{v} $$ using the decay-in-flight technique, Phys. Lett. B 791 (2019) 156 [arXiv:1811.08508] [INSPIRE].
A.J. Buras, M. Gorbahn, U. Haisch and U. Nierste, Charm quark contribution to K + → π+ $$ v\overline{v} $$ at next-to-next-to-leading order, JHEP 11 (2006) 002 [Erratum ibid. 11 (2012) 167] [hep-ph/0603079] [INSPIRE].
J. Brod, M. Gorbahn and E. Stamou, Two-Loop Electroweak Corrections for the K → π$$ v\overline{v} $$ Decays, Phys. Rev. D 83 (2011) 034030 [arXiv:1009.0947] [INSPIRE].
A.J. Buras, D. Buttazzo, J. Girrbach-Noe and R. Knegjens, K + → π+ $$ v\overline{v} $$ and KL → π0 $$ v\overline{v} $$ in the Standard Model: status and perspectives, JHEP 11 (2015) 033 [arXiv:1503.02693] [INSPIRE].
NA62 collaboration, The NA62 experiment at CERN: status and perspectives, in 12th Conference on Flavor Physics and CP-violation, (2014) [arXiv:1407.8213] [INSPIRE].
KLEVER Project collaboration, KLEVER: An experiment to measure BR(KL → π0 $$ v\overline{v} $$) at the CERN SPS, arXiv:1901.03099 [INSPIRE].
J. Beacham et al., Physics Beyond Colliders at CERN: Beyond the Standard Model Working Group Report, J. Phys. G 47 (2020) 010501 [arXiv:1901.09966] [INSPIRE].
T. Kitahara, T. Okui, G. Perez, Y. Soreq and K. Tobioka, New physics implications of recent search for KL → π0 $$ v\overline{v} $$ at KOTO, Phys. Rev. Lett. 124 (2020) 071801 [arXiv:1909.11111] [INSPIRE].
J.D. Bjorken et al., Search for Neutral Metastable Penetrating Particles Produced in the SLAC Beam Dump, Phys. Rev. D 38 (1988) 3375 [INSPIRE].
CHARM collaboration, Search for Axion Like Particle Production in 400-GeV Proton-Copper Interactions, Phys. Lett. B 157 (1985) 458 [INSPIRE].
J. Blümlein et al., Limits on neutral light scalar and pseudoscalar particles in a proton beam dump experiment, Z. Phys. C 51 (1991) 341 [INSPIRE].
J. Blümlein et al., Limits on the mass of light (pseudo)scalar particles from Bethe-Heitler e+ e− and μ+ μ− pair production in a proton-iron beam dump experiment, Int. J. Mod. Phys. A 7 (1992) 3835 [INSPIRE].
J.A. Dror, R. Lasenby and M. Pospelov, Dark forces coupled to nonconserved currents, Phys. Rev. D 96 (2017) 075036 [arXiv:1707.01503] [INSPIRE].
L3 collaboration, Search for new physics in energetic single photon production in e+ e− annihilation at the Z resonance, Phys. Lett. B 412 (1997) 201 [INSPIRE].
N. Bar, K. Blum and G. D’amico, Is there a supernova bound on axions?, Phys. Rev. D 101 (2020) 123025 [arXiv:1907.05020] [INSPIRE].
J.H. Chang, R. Essig and S.D. McDermott, Revisiting Supernova 1987A Constraints on Dark Photons, JHEP 01 (2017) 107 [arXiv:1611.03864] [INSPIRE].
G.G. Raffelt, Astrophysical axion bounds diminished by screening effects, Phys. Rev. D 33 (1986) 897 [INSPIRE].
G.G. Raffelt, Astrophysical methods to constrain axions and other novel particle phenomena, Phys. Rept. 198 (1990) 1 [INSPIRE].
A. Payez, C. Evoli, T. Fischer, M. Giannotti, A. Mirizzi and A. Ringwald, Revisiting the SN1987A gamma-ray limit on ultralight axion-like particles, JCAP 02 (2015) 006 [arXiv:1410.3747] [INSPIRE].
A. Bartl, R. Bollig, H.-T. Janka and A. Schwenk, Impact of Nucleon-Nucleon Bremsstrahlung Rates Beyond One-Pion Exchange, Phys. Rev. D 94 (2016) 083009 [arXiv:1608.05037] [INSPIRE].
G.G. Raffelt and G.D. Starkman, Stellar energy transfer by keV mass scalars, Phys. Rev. D 40 (1989) 942 [INSPIRE].
T. Fischer, S. Chakraborty, M. Giannotti, A. Mirizzi, A. Payez and A. Ringwald, Probing axions with the neutrino signal from the next galactic supernova, Phys. Rev. D 94 (2016) 085012 [arXiv:1605.08780] [INSPIRE].
K. Nakazato, K. Sumiyoshi, H. Suzuki, T. Totani, H. Umeda and S. Yamada, Supernova Neutrino Light Curves and Spectra for Various Progenitor Stars: From Core Collapse to Proto-neutron Star Cooling, Astrophys. J. Suppl. 205 (2013) 2 [arXiv:1210.6841] [INSPIRE].
E. Masso and R. Toldra, On a light spinless particle coupled to photons, Phys. Rev. D 52 (1995) 1755 [hep-ph/9503293] [INSPIRE].
P. Carenza, T. Fischer, M. Giannotti, G. Guo, G. Martínez-Pinedo and A. Mirizzi, Improved axion emissivity from a supernova via nucleon-nucleon bremsstrahlung, JCAP 10 (2019) 016 [arXiv:1906.11844] [INSPIRE].
J. Engel, D. Seckel and A.C. Hayes, Emission and detectability of hadronic axions from SN1987A, Phys. Rev. Lett. 65 (1990) 960 [INSPIRE].
A. Burrows, M. Ressell and M.S. Turner, Axions and SN1987A: Axion trapping, Phys. Rev. D 42 (1990) 3297 [INSPIRE].
L.J. Hall and T. Watari, Electroweak supersymmetry with an approximate U(1) Peccei-Quinn symmetry, Phys. Rev. D 70 (2004) 115001 [hep-ph/0405109] [INSPIRE].
D. Kazanas, R.N. Mohapatra, S. Nussinov, V.L. Teplitz and Y. Zhang, Supernova Bounds on the Dark Photon Using its Electromagnetic Decay, Nucl. Phys. B 890 (2014) 17 [arXiv:1410.0221] [INSPIRE].
G.G. Raffelt, Particle physics from stars, Ann. Rev. Nucl. Part. Sci. 49 (1999) 163 [hep-ph/9903472] [INSPIRE].
A. Sung, H. Tu and M.-R. Wu, New constraint from supernova explosions on light particles beyond the Standard Model, Phys. Rev. D 99 (2019) 121305 [arXiv:1903.07923] [INSPIRE].
G.G. Raffelt and D.S.P. Dearborn, Bounds on Hadronic Axions From Stellar Evolution, Phys. Rev. D 36 (1987) 2211 [INSPIRE].
J.A. Frieman, S. Dimopoulos and M.S. Turner, Axions and Stars, Phys. Rev. D 36 (1987) 2201 [INSPIRE].
G. Raffelt, Stellar evolution limits on axion properties, hep-ph/9805400 [INSPIRE].
NA62 collaboration, Study of the K ± → π± γγ decay by the NA62 experiment, Phys. Lett. B 732 (2014) 65 [arXiv:1402.4334] [INSPIRE].
R. Kaiser and H. Leutwyler, Pseudoscalar decay constants at large Nc, in Workshop on Methods of Nonperturbative Quantum Field Theory, pp. 15–29 (1998) [hep-ph/9806336] [INSPIRE].
R. Kaiser and H. Leutwyler, Large Nc in chiral perturbation theory, Eur. Phys. J. C 17 (2000) 623 [hep-ph/0007101] [INSPIRE].
P. Bickert, P. Masjuan and S. Scherer, η-η′ Mixing in Large-Nc Chiral Perturbation Theory, Phys. Rev. D 95 (2017) 054023 [arXiv:1612.05473] [INSPIRE].
S. Scherer and M.R. Schindler, A Primer for Chiral Perturbation Theory, vol. 830 (2012) [DOI] [INSPIRE].
J. Kambor, J.H. Missimer and D. Wyler, The Chiral Loop Expansion of the Nonleptonic Weak Interactions of Mesons, Nucl. Phys. B 346 (1990) 17 [INSPIRE].
H. Weldon, Simple Rules for Discontinuities in Finite Temperature Field Theory, Phys. Rev. D 28 (1983) 2007 [INSPIRE].
