Xavier A. Pinto Hernandez - Academia.edu (original) (raw)

Xavier A. Pinto Hernandez

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Papers by Xavier A. Pinto Hernandez

Research paper thumbnail of Prototipo sistema de vigilancia electrónica con cámaras IP y aplicativo móvil

Research paper thumbnail of Inferring dark halo structure from observed scaling laws of late-type galaxies and LSBs

Monthly Notices of the Royal Astronomical Society, 1998

We reexamine the Fall & Efstathiou scenario for galaxy formation, including the dark halo gravita... more We reexamine the Fall & Efstathiou scenario for galaxy formation, including the dark halo gravitational reaction to the formation of the baryon disc, as well as continuous variations in the intrinsic halo density profile. The recently published rotation curves of low surface brightness (LSB) and dwarf galaxies together with previously known scaling relations provide sufficient information on the present-day structure of late-type disc galaxies to invert the problem. By requiring that the models reproduce all the observational restrictions we can fully constrain the initial conditions of galaxy formation, with a minimum of assumptions, in particular without the need to specify a cold dark matter (CDM) halo profile. This allows one to solve for all the initial conditions, in terms of the halo density profile, the baryon fraction and the total angular momentum. We find that a unique initial halo shape is sufficient to accurately reproduce the rotation curves of both LSB and normal late-type spiral galaxies. This unique halo profile differs substantially from that found in standard CDM models. A galactic baryon fraction of 0.065 is found. The initial value of the dimensionless angular momentum is seen to be the principal discriminator between the galaxy classes we examine. The present-day scalings between structural parameters are seen to originate in the initial conditions.

Research paper thumbnail of Prototipo sistema de vigilancia electrónica con cámaras IP y aplicativo móvil

Research paper thumbnail of Inferring dark halo structure from observed scaling laws of late-type galaxies and LSBs

Monthly Notices of the Royal Astronomical Society, 1998

We reexamine the Fall & Efstathiou scenario for galaxy formation, including the dark halo gravita... more We reexamine the Fall & Efstathiou scenario for galaxy formation, including the dark halo gravitational reaction to the formation of the baryon disc, as well as continuous variations in the intrinsic halo density profile. The recently published rotation curves of low surface brightness (LSB) and dwarf galaxies together with previously known scaling relations provide sufficient information on the present-day structure of late-type disc galaxies to invert the problem. By requiring that the models reproduce all the observational restrictions we can fully constrain the initial conditions of galaxy formation, with a minimum of assumptions, in particular without the need to specify a cold dark matter (CDM) halo profile. This allows one to solve for all the initial conditions, in terms of the halo density profile, the baryon fraction and the total angular momentum. We find that a unique initial halo shape is sufficient to accurately reproduce the rotation curves of both LSB and normal late-type spiral galaxies. This unique halo profile differs substantially from that found in standard CDM models. A galactic baryon fraction of 0.065 is found. The initial value of the dimensionless angular momentum is seen to be the principal discriminator between the galaxy classes we examine. The present-day scalings between structural parameters are seen to originate in the initial conditions.

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