Understanding elliptical galaxies with warm dark matter

Bruce Hoeneisen

doi:10.1016/j.dark.2024.101643

Understanding elliptical galaxies with warm dark matter

Bruce Hoeneisen

Universidad San Francisco de Quito USFQ

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

We fit the solution of hydrostatic equations to the observed total and baryonic mass densities ρ_tot(r) and ρ_b(r) of 23 massive elliptical galaxies. Our purpose is to investigate how well these measurements constrain the cusp or core of elliptical galaxies, and the dark matter comoving temperature-to-mass ratio, or equivalently, the adiabatic invariant v_hrms(1), of dark matter. These studies reinforce the view that the lower bound of the measured distribution of the comoving thermal velocity v_hrms(1) is of cosmological origin, in agreement with studies of spiral and dwarf galaxies.

Idioma original	Inglés
Número de artículo	101643
Publicación	Physics of the Dark Universe
Volumen	46
DOI	https://doi.org/10.1016/j.dark.2024.101643
Estado	Publicada - dic. 2024

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abstract = "We fit the solution of hydrostatic equations to the observed total and baryonic mass densities ρtot(r) and ρb(r) of 23 massive elliptical galaxies. Our purpose is to investigate how well these measurements constrain the cusp or core of elliptical galaxies, and the dark matter comoving temperature-to-mass ratio, or equivalently, the adiabatic invariant vhrms(1), of dark matter. These studies reinforce the view that the lower bound of the measured distribution of the comoving thermal velocity vhrms(1) is of cosmological origin, in agreement with studies of spiral and dwarf galaxies.",

keywords = "Elliptical galaxies, Warm dark matter",

author = "Bruce Hoeneisen",

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doi = "10.1016/j.dark.2024.101643",

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AB - We fit the solution of hydrostatic equations to the observed total and baryonic mass densities ρtot(r) and ρb(r) of 23 massive elliptical galaxies. Our purpose is to investigate how well these measurements constrain the cusp or core of elliptical galaxies, and the dark matter comoving temperature-to-mass ratio, or equivalently, the adiabatic invariant vhrms(1), of dark matter. These studies reinforce the view that the lower bound of the measured distribution of the comoving thermal velocity vhrms(1) is of cosmological origin, in agreement with studies of spiral and dwarf galaxies.

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JO - Physics of the Dark Universe

JF - Physics of the Dark Universe

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ER -

Understanding elliptical galaxies with warm dark matter

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