Cosmological structure formation and soliton phase transition in fuzzy dark matter with axion self-interactions

Mocz, Philip; Fialkov, Anastasia; Vogelsberger, Mark; Boylan-Kolchin, Michael; Chavanis, Pierre‐Henri; Amin, Mustafa A.; Bose, Sownak; Dome, Tibor; Hernquist, Lars; Lancaster, Lachlan; Matthew, Notis,; Painter, Connor; Robles, Victor H.; Zavala, Jesús

doi:10.1093/mnras/stad694

Cited by 19 publications

(9 citation statements)

References 61 publications

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“…This result has been confirmed and elaborated on in numerous studies since then, see e.g. [192][193][194][195][196][197][198][199] for a very incomplete sample.…”

Section: Axion Starssupporting

confidence: 65%

“…The fact they cannot merge fast enough is a problem given the number of very massive black holes seen in the centres of modern galaxies. However, orbiting 52One way to circumvent this tension is to add more degrees of freedom to the model, for example by incorporating self-interactions [197,199]. Another possibility could be within an axion model with a large initial misalignment angle which can enhance rather than suppress structure around the Jeans scale [431] 53See e.g.…”

Section: Pos(cosmicwispers)040 Pos(cosmicwispers)040mentioning

confidence: 99%

See 1 more Smart Citation

Cosmology of axion dark matter

O'Hare

2024

Proceedings of 1st General Meeting and 1st Training School of the COST Action COSMIC WSIPers — PoS(COSMICWISPers)

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I present an introduction and topical review on axions as a dark matter candidate. Emphasis is placed on issues surrounding the cosmology of axion dark matter that are relevant for presentday searches, including: early-Universe production mechanisms, predictions of the axion mass, bounds on axion properties derived from cosmological data, as well as the direct and indirect detection of relic axion populations.

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“…This result has been confirmed and elaborated on in numerous studies since then, see e.g. [192][193][194][195][196][197][198][199] for a very incomplete sample.…”

Section: Axion Starssupporting

confidence: 65%

Section: Pos(cosmicwispers)040 Pos(cosmicwispers)040mentioning

confidence: 99%

Cosmology of axion dark matter

O'Hare

2024

Proceedings of 1st General Meeting and 1st Training School of the COST Action COSMIC WSIPers — PoS(COSMICWISPers)

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“…The soliton profile can be modelled as [48] ρ(r) = ρ 0 1 + 0.091 (r/r c ) 2 −8 , where ρ 0 is the central density and r c the radius at which the density reaches half of its central value, For the heavier masses considered, m a ≃ 10 −18 eV, these scales may be accessible by the most futuristic configuration LRAII, for which ℓ cover is of order 10 6 . A proper treatment would require numerical simulations, similar to what has been implemented recently in [50,51].…”

Section: Resultsmentioning

confidence: 99%

Dark ages, a window on the dark sector. Hunting for ultra-light axions

Vanzan,

Raccanelli,

Bartolo

2024

J. Cosmol. Astropart. Phys.

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Measurements of 21 cm intensity mapping (IM) during the dark ages can potentially provide us with an unprecedented window on high redshifts and small scales. One of the main advantages this can bring involves the possibility to probe the nature of dark matter. Tests of dark matter models with the large-scale structure of the Universe are limited by non-linearities and astrophysical effects, which are not present for IM measurements during the dark ages. In this paper we focus on constraining the model in which dark matter is comprised, totally or in part, by ultra-light axion-like particles around the 10-18– 10-22 eV mass scale. For this model, the angular power spectrum of 21 cm brightness temperature fluctuations will exhibit a small-scale suppression. However, this effect is intertwined with the imprint of baryon-dark matter relative velocity at recombination, causing at the same time an enhancement at large-scales, which is affected by the mass and abundance of axion dark matter. In this work we forecast how future radio arrays will be able to constrain ultra-light axion mass through both these effects on the angular power spectrum.

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“…(3.45) in section 3.2.3 in [13], section 5.1.2 in [11] as well as [54,55]). Indeed, there has been a growing interest in recent years to study and constrain self-interactions of scalar field dark matter [14,15,[56][57][58][59][60][61][62][63][64][65][66][67].…”

Section: Jcap02(2024)044mentioning

confidence: 99%

ULDM self-interactions, tidal effects and tunnelling out of satellite galaxies

Dave,

Goswami

2024

J. Cosmol. Astropart. Phys.

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It is well-known that Dark Matter (DM) inside a satellite galaxy orbiting a host halo experiences a tidal potential. If DM is ultra-light, given its wave-like nature, one expects it to tunnel out of the satellite — if this happens sufficiently quickly, then the satellite will not survive over cosmological timescales, severely constraining this dark matter model. In this paper, we study the effects of the inevitable quartic self-interaction of scalar Ultra-Light Dark Matter (ULDM) on the lifetimes of satellite galaxies by looking for quasi-stationary solutions with outgoing wave boundary conditions. For a satellite with some known core mass and orbital period, we find that, attractive (repulsive) self-interactions decrease (increase) the rate of tunnelling of DM out of it. In particular, for satellite galaxies with core mass ∼𝒪(107–108) M⊙ and orbital period ∼𝒪(1) Gyr, one can impose constraints on the strength of self-interactions as small as λ∼𝒪(10-92). For instance, for ULDM mass m = 10-22 eV, the existence of the Fornax dwarf galaxy necessitates attractive self-interactions with λ≲ -2.12 × 10-91.

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Cosmological structure formation and soliton phase transition in fuzzy dark matter with axion self-interactions

Cited by 19 publications

References 61 publications

Cosmology of axion dark matter

Cosmology of axion dark matter

Dark ages, a window on the dark sector. Hunting for ultra-light axions

ULDM self-interactions, tidal effects and tunnelling out of satellite galaxies

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