783 research outputs found
Estimate of nuclear technology engine test stand sound power and spectrum
Estimate of nuclear technology engine test stand sound power and spectru
Binary formation and mass function variations in fragmenting discs with short cooling times
Accretion discs at sub-pc distances around supermassive black holes are
likely to cool rapidly enough that self-gravity results in fragmentation. Here,
we use high-resolution hydrodynamic simulations of a simplified disc model to
study how the outcome of fragmentation depends upon numerical resolution and
cooling time, and to investigate the incidence of binary formation within
fragmenting discs. We investigate a range of cooling times, from the relatively
long cooling time-scales that are marginally unstable to fragmentation down to
highly unstable cooling on a time-scale that is shorter than the local
dynamical time. The characteristic mass of fragments decreases with reduced
cooling time, though the effect is modest and dependent upon details of how
rapidly bound clumps radiate. We observe a high incidence of capture binaries,
though we are unable to determine their final orbits or probability of
survival. The results suggest that faster cooling in the parent disc results in
an increased binary fraction, and that a high primordial binary fraction may
result from disc fragmentation. We discuss our results in terms of the young
massive stars close to the Galactic Centre, and suggest that observations of
some stellar binaries close to the Galactic Centre remain consistent with
formation in a fragmenting accretion disc.Comment: 10 pages, 5 figures. Accepted for publication in MNRAS. Figures 1 and
3 degraded to meet arXiv size limits - version with high resolution figures
available at http://www.strw.leidenuniv.nl/~rda/publications.htm
Optical and Infrared Photometry of the Unusual Type Ia Supernova 2000cx
We present optical and infrared photometry of the unusual Type Ia supernova
2000cx. With the data of Li et al. (2001) and Jha (2002), this comprises the
largest dataset ever assembled for a Type Ia SN, more than 600 points in
UBVRIJHK. We confirm the finding of Li et al. regarding the unusually blue B-V
colors as SN 2000cx entered the nebular phase. Its I-band secondary hump was
extremely weak given its B-band decline rate. The V minus near infrared colors
likewise do not match loci based on other slowly declining Type Ia SNe, though
V-K is the least ``abnormal''. In several ways SN 2000cx resembles other slow
decliners, given its B-band decline rate (Delta m_15(B) = 0.93), the appearance
of Fe III lines and weakness of Si II in its pre-maximum spectrum, the V-K
colors and post-maximum V-H colors. If the distance modulus derived from
Surface Brightness Fluctuations of the host galaxy is correct, we find that the
rate of light increase prior to maximum, the characteristics of the bolometric
light curve, and the implied absolute magnitude at maximum are all consistent
with a sub-luminous object with Delta m_15(B) ~ 1.6-1.7 having a higher than
normal kinetic energy.Comment: 46 pages, 17 figures, to be published in Publications of the
Astronomical Society of the Pacifi
The Milky Way's Fermi Bubbles: Echoes of the Last Quasar Outburst?
{\it Fermi}-LAT has recently detected two gamma ray bubbles disposed
symmetrically with respect to the Galactic plane. The bubbles have been
suggested to be in a quasi-steady state, inflated by ongoing star formation
over the age of the Galaxy. Here we propose an alternative picture where the
bubbles are the remnants of a large-scale wide-angle outflow from \sgra, the
SMBH of our Galaxy. Such an outflow would be a natural consequence of a short
but bright accretion event on to \sgra\ if it happened concurrently with the
well known star formation event in the inner 0.5 pc of the Milky Way
Myr ago. We find that the hypothesised near-spherical outflow is focussed into
a pair of symmetrical lobes by the greater gas pressure along the Galactic
plane. The outflow shocks against the interstellar gas in the Galaxy bulge.
Gamma--ray emission could be powered by cosmic rays created by either \sgra\
directly or accelerated in the shocks with the external medium. The Galaxy disc
remains unaffected, agreeing with recent observational evidence that
supermassive black holes do not correlate with galaxy disc properties. We
estimate that an accreted mass \sim 2 \times 10^3\msun is needed for the
accretion event to power the observed {\it Fermi}--LAT lobes. Within a factor
of a few this agrees with the mass of the young stars born during the star
formation event. This estimate suggests that roughly 50% of the gas was turned
into stars, while the rest accreted onto \sgra. One interpretation of this is a
reduced star formation efficiency inside the \sgra\ accretion disc due to
stellar feedback, and the other a peculiar mass deposition geometry that
resulted in a significant amount of gas falling directly inside the inner pc of the Galaxy.Comment: 6 pages, 0 figures; accepted for publication in MNRA
Self-gravitating fragmentation of eccentric accretion disks
We consider the effects of eccentricity on the fragmentation of
gravitationally unstable accretion disks, using numerical hydrodynamics. We
find that eccentricity does not affect the overall stability of the disk
against fragmentation, but significantly alters the manner in which such
fragments accrete gas. Variable tidal forces around an eccentric orbit slow the
accretion process, and suppress the formation of weakly-bound clumps. The
"stellar" mass function resulting from the fragmentation of an eccentric disk
is found to have a significantly higher characteristic mass than that from a
corresponding circular disk. We discuss our results in terms of the disk(s) of
massive stars at ~0.1pc from the Galactic Center, and find that the
fragmentation of an eccentric accretion disk, due to gravitational instability,
is a viable mechanism for the formation of these systems.Comment: 9 pages, 7 figures. Accepted for publication in Ap
- …