179 research outputs found
Study of Envelope Velocity Evolution of Type Ib-c Core-Collapse Supernovae from Observations of XRF 080109 / SN 2008D and GRB 060218 / SN 2006aj with BTA
Results of modeling the spectra of two supernovae SN 2008D and SN 2006aj
related to the X-ray flash XRF 080109 and gamma-ray burst GRB / XRF 060218,
respectively, are studied. The spectra were obtained with the 6-meter BTA
telescope of the Special Astrophysical Observatory of the Russian Academy of
Sciences in 6.48 and 27.61 days after the explosion of SN 2008D, and in 2.55
and 3.55 days after the explosion of SN 2006aj. The spectra were interpreted in
the Sobolev approximation with the SYNOW code. An assumption about the presence
of envelopes around the progenitor stars is confirmed by an agreement between
the velocities of lines interpreted as hydrogen and helium, and the empiric
power-law velocity drop with time for the envelopes of classic core-collapse
supernovae. Detection of a P Cyg profile of the H-beta line in the spectra of
optical afterglows of GRBs can be a determinative argument in favor of this
hypothesis.Comment: 12 pages, 6 figures, accepted for publication in Astrophysical
Bulletin
TREATMENT OF HIRSCHSPRUNG DISEASE IN ADULTS
The article presents our own experience of treatment of Hirschsprung disease in adults
SN 2008in—Bridging the Gap between Normal and Faint Supernovae of Type IIP
We present optical photometric and low-resolution spectroscopic observations of the Type II plateau supernova (SN) 2008in, which occurred in the outskirts of the nearly face-on spiral galaxy M61. Photometric data in the X-ray, ultraviolet, and near-infrared bands have been used to characterize this event. The SN field was imaged with the ROTSE-IIIb optical telescope about seven days before the explosion. This allowed us to constrain the epoch of the shock breakout to JD = 2454825.6. The duration of the plateau phase, as derived from the photometric monitoring, was ~98 days. The spectra of SN 2008in show a striking resemblance to those of the archetypal low-luminosity IIP SNe 1997D and 1999br. A comparison of ejecta kinematics of SN 2008in with the hydrodynamical simulations of Type IIP SNe by Dessart et al. indicates that it is a less energetic event (~5 × 10^(50) erg). However, the light curve indicates that the production of radioactive ^(56)Ni is significantly higher than that in the low-luminosity SNe. Adopting an interstellar absorption along the SN direction of AV ~ 0.3 mag and a distance of 13.2 Mpc, we estimated a synthesized ^(56)Ni mass of ~0.015 M_☉. Employing semi-analytical formulae derived by Litvinova and Nadezhin, we derived a pre-SN radius of ~126 R_☉, an explosion energy of ~5.4 × 10^(50) erg, and a total ejected mass of ~16.7 M_☉. The latter indicates that the zero-age main-sequence mass of the progenitor did not exceed 20 M_☉. Considering the above properties of SN 2008in and its occurrence in a region of sub-solar metallicity ([O/H] ~ 8.44 dex), it is unlikely that fall-back of the ejecta onto a newly formed black hole occurred in SN 2008in. We therefore favor a low-energy explosion scenario of a relatively compact, moderate-mass progenitor star that generates a neutron star
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