1,656 research outputs found
A Spectrophotometric Method to Determine the Inclination of Class I Objects
A new method which enables us to estimate the inclination of Class I young
stellar objects is proposed. Since Class I objects are not spherically
symmetric, it is likely that the observed feature is sensitive to the
inclination of the system. Thus, we construct a protostar model by carefully
treating two-dimensional (2D) radiative transfer and radiative equilibrium. We
show from the present 2D numerical simulations that the emergent luminosity
L_SED,which is the frequency integration of spectral energy distribution (SED),
depends strongly on the inclination of the system i, whereas the peak flux is
insensitive to i. Based on this result, we introduce a novel indicator f_L,
which is the ratio of L_SED to the peak flux, as a good measure for the
inclination. By using f_L, we can determine the inclination regardless of the
other physical parameters. The inclination would be determined by f_L within
the accuracy of +- 5 degree, if the opening angle of bipolar outflows is
specified by any other procedure. Since this spectrophotometric method is
easier than a geometrical method or a full SED fitting method, this method
could be a powerful tool to investigate the feature of protostars statistically
with observational data which will be provided by future missions, such as
SIRTF, ASTRO-F, and ALMA.Comment: 14 pages, 9 figures, accepted by Ap
High stability design for new centrifugal compressor
It is essential that high-performance centrifugal compressors be free of subsynchronous vibrations. A new high-performance centrifugal compressor has been developed by applying the latest rotordynamics knowledge and design techniques: (1) To improve the system damping, a specially designed oil film seal was developed. This seal attained a damping ratio three times that of the conventional design. The oil film seal contains a special damper ring in the seal cartridge. (2) To reduce the destabilizing effect of the labyrinth seal, a special swirl canceler (anti-swirl nozzle) was applied to the balance piston seal. (3) To confirm the system damping margin, the dynamic simulation rotor model test and the full load test applied the vibration exciting test in actual load conditions
Finite-Temperature Phase Structure of Lattice QCD with the Wilson Quark Action for Two and Four Flavors
We present further analyses of the finite-temperature phase structure of
lattice QCD with the Wilson quark action based on spontaneous breakdown of
parity-flavor symmetry. Results are reported on (i) an explicit demonstration
of spontaneous breakdown of parity-flavor symmetry beyond the critical line,
(ii) phase structure and order of chiral transition for the case of
flavors, and (iii) approach toward the continuum limit.Comment: Poster presented at LATTICE96(finite temperature); 4 pages, Latex,
uses espcrc2 and epsf, seven ps figures include
A Criterion for Photoionization of Pregalactic Clouds Exposed to Diffuse Ultraviolet Background Radiation
To elucidate the permeation of cosmic ultraviolet (UV) background radiation
into a pregalactic cloud and subsequent ionization, the frequency-dependent
radiative transfer equation is solved, coupled with the ionization process. A
spherical top-hat cloud which is composed of pure hydrogen is assumed. As a
result, it is shown that the self-shielding, although it is often disregarded
in cosmological hydrodynamic simulations, could start to emerge shortly after
the maximum expansion stages of density fluctuations. The present analysis
reveals that the Stro"mgren approximation leads to overestimation of the
photoionization effects. Also, the self-shielded neutral core is no longer
sharply separated from surrounding ionized regions; a low but noticeable degree
of ionization is caused by high energy photons even in the self-shielded core.
The present results may be substantial on considering the biasing by
photoionization against low-mass galaxy formation.Comment: 12 pages, Latex, 3 figures, To appear in ApJ, July 20, 1998 issue,
email: [email protected]
Formation of Large-Scale Obscuring Wall and AGN Evolution Regulated by Circumnuclear Starbursts
By considering the radiative force by a circumnuclear starburst as well as an
AGN, we analyze the equilibrium configuration and the stability of dusty gas in
the circumnuclear regions. It is found that the radiative force by an intensive
starburst can support a stable gaseous wall with a scale-height of several
hundred parsecs. Moreover, by taking the simple stellar evolution in the
starburst into account, we find that the covering factor of the wall decreases
on a time-scale of several yr. The large-scale wall, if formed, works to
obscure the nucleus due to the dust opacity. Hence, it is anticipated that the
index of AGN type tends to shift from higher to lower in several yr
according as the circumnuclear starburst becomes dimmer. On the other hand, if
the AGN itself is brighter than the circumnuclear starburst (e.g. quasar case),
no stable large-scale wall forms. In that case, the AGN is highly probably
identified as type 1. The present mechanism may provide a physical explanation
for the putative correlation between AGN type and host properties that Sy2's
are more frequently associated with circumnuclear starbursts than Sy1's,
whereas quasars are mostly observed as type 1 regardless of star-forming
activity in the host galaxies.Comment: 10 pages, 3 figures, ApJ Letters in pres
Theoretical Models of Multi-waveband QSO Luminosity Functions
Cosmological evolution of the QSO luminosity functions (LFs) at
NIR/optical/X-ray bands for 1.3 < z < 3.5 is investigated based on the
realistic QSO spectra. The accretion-disk theory predicts that although QSO
luminosities only depend on mass-accretion rate, \Mdot, QSO spectra have a
dependence on black-hole mass, M_{BH}, as well. The smaller M_{BH} is and/or
the larger \Mdot is, the harder becomes the QSO NIR/optical/UV spectrum. We
model disk spectra which can reproduce these features and calculated LFs for
redshift z ~ 3 with the assumption of new-born QSOs being shining at the
Eddington luminosity. The main results are: (i) the observed LFs at optical and
X-rays can be simultaneously reproduced. (ii) LFs at optical and X-ray bands
are not sensitive to M_{BH}, while LFs at NIR bands are; about one order of
magnitude difference is expected in volume number densities at L_{I, J} ~
10^{46} erg s^{-1} between the case that all QSOs would have the same spectral
shape as that of M_{BH} = 10^{9} M_sun and the case with M_{BH} = 10^{11}
M_sun. (iii) The resultant LFs at NIR are dominated by 10^{7} M_sun black-holes
at L_{I, J} ~ 10^{44} erg s^{-1}, and by 10^{11} M_sun black-holes at L_{I, J}
\~ 10^{46} erg s^{-1}. Future infrared observations from space(e.g.NGST) will
probe cosmological evolution of black hole masses. For redshift z < 3, on the
other hand, the observed optical/X-ray LFs can be fitted, if the initial QSO
luminosity L_0 is below the Eddington luminosity. Interestingly, the best
fitting values of l = L_0/L_{Edd} are different in B- and X-ray bands; l_B ~
2.5 l_X. The reason for this discrepancy is briefly discussed.Comment: 10 pages,7 Figures,to be published in Publications of the
Astronomical Society of Japa
Rational Solutions of the Painleve' VI Equation
In this paper, we classify all values of the parameters , ,
and of the Painlev\'e VI equation such that there are
rational solutions. We give a formula for them up to the birational canonical
transformations and the symmetries of the Painlev\'e VI equation.Comment: 13 pages, 1 Postscript figure Typos fixe
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