3,244 research outputs found
The role of thermal evaporation in galaxy formation
In colour-magnitude diagrams most galaxies fall in either the ``blue cloud''
or the ``red sequence'', with the red sequence extending to significantly
brighter magnitudes than the blue cloud. The bright-end of the red sequence
comprises elliptical galaxies (Es) with boxy isophotes and luminosity profiles
with shallow central cores, while fainter Es have disky isophotes and power-law
inner surface-brightness (SB) profiles. An analysis of published data reveals
that the centres of galaxies with power-law central SB profiles have younger
stellar populations than the centres of cored galaxies. We argue that thermal
evaporation of cold gas by virial-temperature gas plays an important role in
determining these phenomena. In less massive galaxies, thermal evaporation is
not very efficient, so significant amounts of cold gas can reach the galaxy
centre and fill a central core with newly formed stars, consistent with the
young stellar ages of the cusps of Es with power-law SB profiles. In more
massive galaxies, cold gas is evaporated within a dynamical time, so star
formation is inhibited, and a core in the stellar density profile produced by
dissipationless dynamics cannot be refilled. The different observed properties
of AGN in higher-mass and lower-mass ellipticals are also explained because in
the former the central black holes invariably accrete hot gas, while in the
latter they typically accrete cold gas. An important consequence of our results
is that at the present time there cannot be blue, star-forming galaxies in the
most massive galactic halos, consistent with the observed truncation of the
blue cloud at L*. [abridged]Comment: MNRAS, accepted. Added discussion and references, conclusions
unchanged. 14 pages, 6 figures (2 color
Is Galactic Structure Compatible with Microlensing Data?
We generalize to elliptical models the argument of Kuijken (1997), which
connects the microlensing optical depth towards the Galactic bulge to the
Galactic rotation curve. When applied to the latest value from the MACHO
collaboration for the optical depth for microlensing of bulge sources, the
argument implies that the Galactic bar cannot plausibly reconcile the measured
values of the optical depth, the rotation curve and the local mass density.
Either there is a problem with the interpretation of the microlensing data, or
our line of sight to the Galactic centre is highly atypical in that it passes
through a massive structure that wraps only a small distance around the
Galactic centre.Comment: Submitted to ApJ Letters. 8 pages LaTeX, 3 figures. Corrected error
in description of microlensing observation
Radial Mixing in Galactic Discs
We show that spiral waves in galaxy discs churn the stars and gas in a manner
that largely preserves the overall angular momentum distribution and leads to
little increase in random motion. Changes in the angular momenta of individual
stars are typically as large as ~50% over the lifetime of the disk. The changes
are concentrated around the corotation radius for an individual spiral wave,
but since transient waves with a wide range of pattern speeds develop in rapid
succession, the entire disk is affected. This behaviour has profound
consequences for the metallicity gradients with radius in both stars and gas.
The ISM is also stirred by the same mechanism. We find observational support
for stirring, propose a simple model for the distribution of stars over
metallicity and age, and discuss other possible consequences.Comment: Accepted to appear in MNRAS, 13 pages, 16 figures, LaTeX uses
mn2e.cls Minor additions to text and one extra figur
The uncertainty in Galactic parameters
We reanalyse the measurements of parallax, proper motion, and line-of-sight
velocity for 18 masers in high mass star-forming regions presented by Reid et
al. (2009). We use a likelihood analysis to investigate the distance of the Sun
from the Galactic centre, R_0, the rotational speed of the local standard of
rest, v_0, and the peculiar velocity of the Sun, vsol, for various models of
the rotation curve, and models which allow for a typical peculiar motion of the
high mass star-forming regions.
We find that these data are best fit by models with non-standard values for
vsol or a net peculiar motion of the high mass star-forming regions. We argue
that a correction to vsol is much more likely, and that these data support the
conclusion of Binney (2009) that V_sol should be revised upwards from 5.2 km/s
to 11 km/s. We find that the values of R_0 and v_0 that we determine are
heavily dependent on the model we use for the rotation curve, with
model-dependent estimates of R_0 ranging from 6.7 \pm 0.5kpc to 8.9 \pm 0.9kpc,
and those of v_0 ranging from 200 \pm 20 km/s to 279 \pm 33 km/s. We argue that
these data cannot be thought of as implying any particular values of R_0 or
v_0. However, we find that v_0/R_0 is better constrained, lying in the range
29.9-31.6 km/s/kpc for all models but one.Comment: 8 pages. MNRAS accepted. Revised to reflect final versio
Analysing surveys of our Galaxy I: basic astrometric data
We consider what is the best way to extract science from large surveys of the
Milky Way galaxy. The diversity of data gathered in these surveys, together
with our position within the Galaxy, imply that science must be extracted by
fitting dynamical models to the data in the space of the observables. Models
based on orbital tori promise to be superior for this task than traditional
types of models, such as N-body models and Schwarzschild models. A formalism
that allows such models to be fitted to data is developed and tested on
pseudodata of varying richness.Comment: 15 pages, 6 figures, MNRAS accepted, changed to reflect final versio
Is the Dark Disc contribution to Dark Matter Signals important ?
Recent N-body simulations indicate that a thick disc of dark matter,
co-rotating with the stellar disc, forms in a galactic halo after a merger at a
redshift . The existence of such a dark disc component in the Milky Way
could affect dramatically dark matter signals in direct and indirect detection.
In this letter, we discuss the possible signal enhancement in connection with
the characteristics of the local velocity distributions. We argue that the
enhancement is rather mild, but some subtle effects may arise. In particular,
the annual modulation observed by DAMA becomes less constrained by other direct
detection experiments
Modeling the flyby anomalies with dark matter scattering
We continue our exploration of whether the flyby anomalies can be explained
by scattering of spacecraft nucleons from dark matter gravitationally bound to
the earth. We formulate and analyze a simple model in which inelastic and
elastic scatterers populate shells generated by the precession of circular
orbits with normals tilted with respect to the earth's axis. Good fits to the
data published by Anderson et al. are obtained.Comment: Latex, 20 pages; revised version has moved derivations to Appendices
and gives further numerical results in Sec. III and in added Tables VI and
VI
Dark Matter Problem in Disk Galaxies
In the generic CDM cosmogony, dark-matter halos emerge too lumpy and
centrally concentrated to host observed galactic disks. Moreover, disks are
predicted to be smaller than those observed. We argue that the resolution of
these problems may lie with a combination of the effects of protogalactic
disks, which would have had a mass comparable to that of the inner dark halo
and be plausibly non-axisymmetric, and of massive galactic winds, which at
early times may have carried off as many baryons as a galaxy now contains. A
host of observational phenomena, from quasar absorption lines and intracluster
gas through the G-dwarf problem point to the existence of such winds. Dynamical
interactions will homogenize and smooth the inner halo, and the observed disk
will be the relic of a massive outflow. The inner halo expanded after absorbing
energy and angular momentum from the ejected material. Observed disks formed at
the very end of the galaxy formation process, after the halo had been reduced
to a minor contributor to the central mass budget and strong radial streaming
of the gas had died down.Comment: 5 pages; submitted to MNRA
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