3,146 research outputs found
Varying leptonic chemical potentials and spatial variation of primordial deuterium at high z
We try to explain the spatial variation of primordial deuterium suggested by
some observations by varying leptonic chemical potentials. The variation of the
latter may take place in some scenarios of leptogenesis. The model predicts a
large mass fraction of (35-60%) and (up to ) in
deuterium-rich regions. Because of lepton family symmetry, the angular
variations of cosmic microwave background radiation can be sufficiently small
although still observable in future measurements.Comment: 16 pages, late
Spatial Variations of Fundamental Constants
We show that observational limits on the possible time variation of constants
of Nature are significantly affected by allowing for both space and time
variation. Bekenstein's generalisation of Maxwell's equations to allow for
cosmological variation of is investigated in a universe containing
spherically symmetric inhomogeneities. The time variation of is
determined by the local matter density and hence limits obtained in
high-density geophysical enviroments are far more constraining than those
obtained at high redshift. This new feature is expected to be a property of a
wide class of theories for the variation of constants.Comment: 4 page
The Oxygen Abundance of Nearby Galaxies from Sloan Digital Sky Survey Spectra
We have derived the oxygen abundance for a sample of nearby galaxies in the
Data Release 5 of the Sloan Digital Sky Survey (SDSS) which possess at least
two independent spectra of one or several HII regions with a detected
[OIII]4363 auroral line. Since, for nearby galaxies, the [OII]3727 nebular line
is out of the observed wavelength range, we propose a method to derive (O/H)_ff
abundances using the classic Te method coupled with the ff relation. (O/H)_7325
abundances have also been determined, based on the [OII]7320,7330 line
intensities, and using a small modification of the standard Te method. The
(O/H)_ff and (O/H)_7325 abundances have been derived with both the one- and
two-dimensional t_2 - t_3 relations. It was found that the (O/H)_ff abundances
derived with the parametric two-dimensional t_2 - t_3 relation are most
reliable. Oxygen abundances have been determined in 29 nearby galaxies, based
on 84 individual abundance determinations in HII regions. Because of our
selection methods, the metallicity of our galaxies lies in the narrow range 8.2
< 12 + log (O/H) < 8.4. The radial distribution of oxygen abundances in the
disk of the spiral galaxy NGC 4490 is determined for the first time.Comment: 39 pages, 10 figures, 4 tables, accepted for publication in the
Astrophysical Journa
X-ray Emission from Haloes of Simulated Disc Galaxies
Bolometric and 0.2-2 keV X-ray luminosities of the hot gas haloes of
simulated disc galaxies have been calculated at redshift z=0. The TreeSPH
simulations are fully cosmological and the sample of 44 disc galaxies span a
range in characteristic circular speeds of V_c = 130-325 km/s. The galaxies
have been obtained in simulations with a considerable range of physical
parameters, varying the baryonic fraction, the gas metallicity, the
meta-galactic UV field, the cosmology, the dark matter type, and also the
numerical resolution. The models are found to be in agreement with the (few)
relevant X-ray observations available at present. The amount of hot gas in the
haloes is also consistent with constraints from pulsar dispersion measures in
the Milky Way. Forthcoming XMM and Chandra observations should enable much more
stringent tests and provide constraints on the physical parameters. We find
that simple cooling flow models over-predict X-ray luminosities by up to two
orders of magnitude for high (but still realistic) cooling efficiencies
relative to the models presented here. Our results display a clear trend that
increasing cooling efficiency leads to decreasing X-ray luminosities at z=0.
The reason is found to be that increased cooling efficiency leads to a
decreased fraction of hot gas relative to total baryonic mass inside of the
virial radius at present. At gas metal abundances of a third solar this hot gas
fraction becomes as low as just a few percent. We also find that most of the
X-ray emission comes from the inner parts (inner about 20 kpc) of the hot
galactic haloes. Finally, we find for realistic choices of the physical
parameters that disc galaxy haloes possibly were more than one order of
magnitude brighter in soft X-ray emission at z=1, than at present.Comment: 8 pages, 7 figures, MNRAS LaTeX forma
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