789 research outputs found
Heterogeneity and the nonparametric analysis of consumer choice: conditions for invertibility
This paper considers structural nonparametric random utility models for continuous
choice variables. It provides sufficient conditions on random preferences to yield reduced-
form systems of nonparametric stochastic demand functions that allow global invertibility
between demands and random utility components. Invertibility is essential for global
identifcation of structural consumer demand models, for the existence of well-specified
probability models of choice and for the nonparametric analysis of revealed stochastic
preference
Where have all the black holes gone?
We have calculated stationary models for accretion disks around super-massive
black holes in galactic nuclei. Our models show that below a critical mass flow
rate of ~3 10**-3 M_Edd advection will dominate the energy budget while above
that rate all the viscously liberated energy is radiated. The radiation
efficiency declines steeply below that critical rate. This leads to a clear
dichotomy between AGN and normal galaxies which is not so much given by
differences in the mass flow rate but by the radiation efficiency. At very low
mass accretion rates below 5 10**-5 M_Edd synchrotron emission and
Bremsstrahlung dominate the SED, while above 2 10**-4 M Edd the inverse Compton
radiation from synchrotron seed photons produce flat to inverted SEDs from the
radio to X-rays. Finally we discuss the implications of these findings for AGN
duty cycles and the long-term AGN evolution.Comment: 7 pages, 5 figures, accepted for publication in A&
From the Circumnuclear Disk in the Galactic Center to thick, obscuring tori of AGNs
We compare three different models of clumpy gas disk and show that the
Circumnuclear Disk (CND) in the Galactic Center and a putative, geometrically
thick, obscuring torus are best explained by a collisional model consisting of
quasi-stable, self-gravitating clouds. Kinetic energy of clouds is gained by
mass inflow and dissipated in cloud collisions. The collisions give rise to a
viscosity in a spatially averaged gas dynamical picture, which connects them to
angular momentum transport and mass inflow. It is found that CND and torus
share the same gas physics in our description, where the mass of clouds is 20 -
50 M_sun and their density is close to the limit of disruption by tidal shear.
We show that the difference between a transparent CND and an obscuring torus is
the gas mass and the velocity dispersion of the clouds. A change in gas supply
and the dissipation of kinetic energy can turn a torus into a CND-like
structure and vice versa. Any massive torus will naturally lead to sufficiently
high mass accretion rates to feed a luminous AGN. For a geometrically thick
torus to obscure the view to the center even super-Eddington accretions rates
with respect to the central black hole are required.Comment: 9 pages, no figures. Accepted for publication in A&
Subarcsecond Submillimeter Imaging of the Ultracompact HII Region G5.89-0.39
We present the first subarcsecond submillimeter images of the enigmatic
ultracompact HII region (UCHII) G5.89-0.39. Observed with the SMA, the 875
micron continuum emission exhibits a shell-like morphology similar to longer
wavelengths. By using images with comparable angular resolution at five
frequencies obtained from the VLA archive and CARMA, we have removed the
free-free component from the 875 micron image. We find five sources of dust
emission: two compact warm objects (SMA1 and SMA2) along the periphery of the
shell, and three additional regions further out. There is no dust emission
inside the shell, supporting the picture of a dust-free cavity surrounded by
high density gas. At subarcsecond resolution, most of the molecular gas tracers
encircle the UCHII region and appear to constrain its expansion. We also find
G5.89-0.39 to be almost completely lacking in organic molecular line emission.
The dust cores SMA1 and SMA2 exhibit compact spatial peaks in optically-thin
gas tracers (e.g. 34SO2), while SMA1 also coincides with 11.9 micron emission.
In CO(3-2), we find a high-velocity north/south bipolar outflow centered on
SMA1, aligned with infrared H2 knots, and responsible for much of the maser
activity. We conclude that SMA1 is an embedded intermediate mass protostar with
an estimated luminosity of 3000 Lsun and a circumstellar mass of ~1 Msun.
Finally, we have discovered an NH3 (3,3) maser 12 arcsec northwest of the UCHII
region, coincident with a 44 GHz CH3OH maser, and possibly associated with the
Br gamma outflow source identified by Puga et al. (2006).Comment: 41 pages, 11 figures, published in The Astrophysical Journal (2008)
Volume 680, Issue 2, pp. 1271-1288. An error in the registration of the
marker positions in Figure 11 has been corrected in this versio
Massive Clumps in the NGC 6334 Star Forming Region
We report observations of dust continuum emission at 1.2 mm toward the star
forming region NGC 6334 made with the SEST SIMBA bolometer array. The
observations cover an area of square degrees with approximately
uniform noise. We detected 181 clumps spanning almost three orders of magnitude
in mass (3\Msun \Msun) and with sizes in the range 0.1--1.0 pc.
We find that the clump mass function is well fit with a power law
of the mass with exponent -0.6 (or equivalently ). The
derived exponent is similar to those obtained from molecular line emission
surveys and is significantly different from that of the stellar initial mass
function. We investigated changes in the mass spectrum by changing the
assumptions on the temperature distribution of the clumps and on the
contribution of free-free emission to the 1.2 mm emission, and found little
changes on the exponent. The Cumulative Mass Distribution Function is also
analyzed giving consistent results in a mass range excluding the high-mass end
where a power-law fit is no longer valid. The masses and sizes of the clumps
observed in NGC 6334 indicate that they are not direct progenitors of stars and
that the process of fragmentation determines the distribution of masses later
on or occurs at smaller spatial scales. The spatial distribution of the clumps
in NGC 6334 reveals clustering which is strikingly similar to that exhibited by
young stars in other star forming regions. A power law fit to the surface
density of companions gives .Comment: 16 pages, 11 figures, 4 tables. To appear in the Astrophysical
Journa
An Improved Rule for While Loops in Deductive Program Verification
The performance and usability of deductive program verification
systems can be greatly enhanced if specifications of programs
and program parts not only consist of the usual
pre-/post-condition pairs and invariants but also include
additional information on which memory locations are changed by
executing a program. This allows to separate the aspects of (a)
which locations change and (b) how they change, state the change
information in a compact way, and make the proof process more
efficient. In this paper, we extend this idea from method
specifications to loop invariants; and we define a proof rule
for while loops that makes use of the change information
associated with the loop body. It has been implemented and is
successfully used in the KeY software verification system
Confirmation and Analysis of Circular Polarization from Sagittarius A*
Recently Bower et al. (1999b) have reported the detection of circular
polarization from the Galactic Center black hole candidate, Sagittarius A*. We
provide an independent confirmation of this detection, and provide some
analysis on the possible mechanisms.Comment: 14 pages, to appear in Astrophysical Journal Letter
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