301 research outputs found
Environment of The Gamma-Ray Burst GRB971214 : A Giant H II Region surrounded by A Galactic Supershell
Among a number of gamma ray bursts whose host galaxies are known, GRB971214
stands out for its high redshift and the Ly emission line
having a P-Cygni type profile, which is interpreted to be a direct consequence
of the expanding supershell. From a profile fitting analysis we estimate the
expansion velocity of the supershell v_{exp} = 1500\kms and the neutral
column density N_{HI}=10^{20}\cm^{-2}. The redshift of the host
galaxy proposed by Kulkarni et al. (1998) has been revised to be from
our profile analysis. The observed Ly profile is fitted well by a
Gaussian curve, which yields the Ly luminosity
L_{Ly\alpha}=(1.8\pm0.8)\times10^{42}\ergs \s^{-1}. Assuming that the photon
source is a giant H II region, we deduce the electron number density in the H
II region n_e=(40\pm10) ({R \over {100 \pc}})^{-1.5}\cm^{-3}, which
corresponds to the illumination by about O5 stars. We estimate the
star-formation rate to be R_{SF} = (7\pm3){\rm M}_\odot\yr^{-1} with the
internal and the Galactic extinction corrected. The theory on the evolution of
supernova remnants is used to propose that the supershell is at the adiabatic
phase, with its radius R = 18 E_{53}^{1/2} \pc, its age $t = 4.7\times10^3\
E_{53}^{1/2} \yrsn_1 = 5.4\
E_{53}^{-1/2}\cm^{-3}E_{53}= E/10^{53}\ergsE_k=7.3\times10^{52} E_{53} \ergs$.
These values are consistent with the hypothesis that the supershell is the
remnant of a gamma ray burst.Comment: 5 papges, 3 figures, Accepted for publication in Astrophysical
Journal Letter
P-Cygni Type Lya from Starburst Galaxies
P-Cygni type Lya profiles exhibited in nearly half of starburst galaxies,
both nearby and high-z, are believed to be formed by an expanding supershell
surrounding a star-forming region. We apply the Monte Carlo code which was
developed previously for static and plane-parallel medium to calculate the Lya
line transfer in a supershell of neutral hydrogen which are expanding radially
in a spherical bulk flow. We consider typical cases that the supershell has the
Lya line-centre optical depth of , a radial expansion
velocity of \tau_0$ and V_exp of the
supershell. We discuss the effects of dust extinction and the implication of
our works in relation to recent spectroscopic observations of starburst
galaxies.Comment: 15 pages, 6 figures, submitted to MNRA
Singly-Peaked P-Cygni type Ly from starburst galaxies
We present results of Monte Carlo calculations for the Lya line transfer in
an expanding dusty supershell, where Lya source is a well-localized star
cluster in a starburst galaxy.The escape of Lya photons from such system is
achieved by a number of back-scattering, and so a series of emission peaks are
formed redward of the systemic redshift by back-scattering. However, majority
of observed Lya emission from starbursts show singly-peaked asymmetric
profiles. We find in this paper that, in order to form a singly-peaked Lya
emission, dust should be distributed in the ionized bubble, as well as within
the supershell of neutral hydrogen. We also find that the overall escape
fraction of Lya photons is determined by the HI column density of the
supershell, the expansion velocity of the supershell, and the spatial
distribution of dust. However, the kinematic information of the expanding
supershell is preserved in the profile of Lya emission even when the supershell
is dusty. Our results are potentially useful to fit the P-Cygni type Lya line
profiles from starburst galaxies, either nearby galaxies or high-z Lyman break
galaxies (LBGs).Comment: Original version was submitted to MNRAS on 13, Jan, 2003, which was
withdrawn. After heavey revison, its essence was resubmitted to ApJL on 18
Aug. 2003. 2nd revision. 10 pages, 3 figure
Proto-type installation of a double-station system for the optical-video-detection and orbital characterisation of a meteor/fireball in South Korea
We give a detailed description of the installation and operation of a
double-station meteor detection system which formed part of a research &
education project between Korea Astronomy Space Science Institute and Daejeon
Science Highschool. A total of six light-sensitive CCD cameras were installed
with three cameras at SOAO and three cameras at BOAO observatory. A
double-station observation of a meteor event enables the determination of the
three-dimensional orbit in space. This project was initiated in response to the
Jinju fireball event in March 2014. The cameras were installed in
October/November 2014. The two stations are identical in hardware as well as
software. Each station employes sensitive Watec-902H2 cameras in combination
with relatively fast f/1.2 lenses. Various fields of views were used for
measuring differences in detection rates of meteor events. We employed the
SonotaCo UFO software suite for meteor detection and their subsequent analysis.
The system setup as well as installation/operation experience is described and
first results are presented. We also give a brief overview of historic as well
as recent meteor (fall) detections in South Korea. For more information please
consult http://meteor.kasi.re.kr .Comment: Technical/instrumentation description of a professional meteor
detection system, 23 pages, 20 figures (color/monochrome), 5 tables,
submitted to the Journal of Korean Astronomical Society (JKAS,
http://jkas.kas.org/, http://jkas.kas.org/history.html
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