QCD Axion Dark Matter with a Small Decay Constant

Co, Raymond T.; Hall, Lawrence J.; Harigaya, Keisuke

doi:10.1103/physrevlett.120.211602

Cited by 108 publications

(104 citation statements)

References 90 publications

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“…The initial (homogeneous) field value in our observable Universe can simply correspond to the initial misalignment of the field away from the vacuum, or it can arise "stochastically" [36][37][38][39][40][41] from the accumulated effect of fluctuations during a long phase of inflation. Additional contributions may arise from production via inflationary fluctuations [42][43][44][45][46][47] as well as from decays of precursor particles [48][49][50][51][52][53]. Modifications to the usual misalignment mechanism have been for example explored in [54,55].…”

Section: Introductionmentioning

confidence: 99%

Misalignment & Co.: (pseudo-)scalar and vector dark matter with curvature couplings

Alonso-Álvarez

Hügle

Jaeckel

2020

J. Cosmol. Astropart. Phys.

106

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Section: Introductionmentioning

confidence: 99%

Misalignment & Co.: (pseudo-)scalar and vector dark matter with curvature couplings

Alonso-Álvarez

Hügle

Jaeckel

2020

J. Cosmol. Astropart. Phys.

106

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“…We have shown that over a limited range IAXO will have sensitivity to the masses of KSVZ axions. Some new theoretical predictions propose that this range of axion masses could be of importance in describing both inflation and dark matter [29][30][31][32][33]77]. Therefore IAXO, as well as being simply a search for solar axions, may additionally prove valuable in the search for dark matter, and a companion to future haloscopes searching in the same range [28].…”

Section: Discussionmentioning

confidence: 99%

“…In the range of masses accessible to a helioscope, the QCD axion is generally associated with being a subdominant DM component in the simplest cosmologies. Although given the uncertainties, it could in fact easily account for all of it in both the postinflationary [29][30][31][32], and preinflationary scenarios [33,34]. Furthermore there are long-standing astrophysical anomalies for which an axion in this range has been shown to be a viable explanation [35][36][37][38][39][40][41][42][43][44][45][46].…”

Section: Arxiv:181109290v2 [Hep-ph] 20 Feb 2019mentioning

confidence: 99%

Weighing the solar axion

et al. 2019

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Axion helioscopes search for solar axions and axion-like particles via inverse Primakoff conversion in strong laboratory magnets pointed at the Sun. While helioscopes can always measure the axion coupling to photons, the conversion signal is independent of the mass for axions lighter than around 0.02 eV. Masses above this value on the other hand have suppressed signals due to axion-photon oscillations which destroy the coherence of the conversion along the magnet. However, the spectral oscillations present in the axion conversion signal between these two regimes are highly dependent on the axion mass. We show that these oscillations are observable given realistic energy resolutions and can be used to determine the axion mass to within percent-level accuracies. Using projections for the upcoming helioscope IAXO, we demonstrate that > 3σ sensitivity to a nonzero axion mass is possible between 3 × 10 −3 and 10 −1 eV for both the Primakoff and axion-electron solar fluxes.

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“…We stress that quantum tunneling plays an essential role here. Indeed, the fluctuation cannot grow if there exists only one minimum, which is in contrast to the axion particle production via parametric resonance due to oscillating coherent axion field [23][24][25][26].…”

Section: Coherent Axion Fieldmentioning

confidence: 98%

Real-time dynamics of axion particle production due to spontaneous decay of a coherent axion field

2020

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We show that the coherent axion field spontaneously decays by emitting axion particles via quantum tunneling if axion potential has more than one minimum. By employing the -expansion and mean field approximation, we develop a formalism to trace the real-time dynamics of the axion particle production including its backreaction to the coherent axion field. We also present numerical results for the time evolution of various physical quantities including the strength of the coherent axion field, phase-space density of produced axion particles, energy density, and pressure. Phenomenological implications of our results are also discussed. *

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QCD Axion Dark Matter with a Small Decay Constant

Cited by 108 publications

References 90 publications

Misalignment & Co.: (pseudo-)scalar and vector dark matter with curvature couplings

Misalignment & Co.: (pseudo-)scalar and vector dark matter with curvature couplings

Weighing the solar axion

Real-time dynamics of axion particle production due to spontaneous decay of a coherent axion field

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