Philipp Podsiadlowski

The structure and evolution of Thorne-Zytkow objects

IAU SYMP (1996) 29-41

Abstract:

Thorne-Zytkow objects (TZOs) are red supergiants with neutron cores. The energy source in TZOs with low-mass envelopes (less than or similar to 8 Mo) is accretion onto the neutron core, while for TZOs with massive envelopes (greater than or similar to 14 M.) it is nuclear burning via the exotic rp process. TZOs are expected to form as a result of unstable mass transfer in high-mass X-ray binaries, the direct collision of a neutron star with a massive companion after a supernova or the collision of a neutron star with a low-mass star in a globular cluster. We estimate a birth rate of massive TZOs in the Galaxy of similar to 2 10(-4) yr(-1). Thus, for a characteristic TZO Lifetime of 10(5)-10(6) yr there should be 20-200 TiOs in the Galaxy at present. These can be distinguished from ordinary red supergiants because of anomalously high surface abundances of Lithium and rp-process elements, produced in the TZO interior. The TZO phase ends when either the star has exhausted its rp-process seed elements or the envelope mass decreases below a critical mass (similar to 14 M.). Then nuclear burning becomes inefficient and a neutrino runaway ensues, leading to the dynamical accretion of matter near the core onto the neutron star and its spin up to spin frequencies of up to similar to 100 Hz. The fate of the massive envelope is not entirely clear. If a significant fraction can be accreted onto the core, the formation of a black hole becomes Likely. Part of the envelope may collapse into a massive disk which may ultimately become gravitationally unstable and lead to the formation of planets or even low-mass stars. We discuss the various possible outcomes and suggest a possible link between massive TZOs and soft X-ray transients.

DYNAMICAL INTERACTIONS BETWEEN YOUNG STELLAR OBJECTS AND A COLLISIONAL MODEL FOR THE ORIGIN OF THE STELLAR MASS-SPECTRUM

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 273:4 (1995) 1041-1068

Authors:

NM PRICE, P PODSIADLOWSKI

GAMMA-RAY BURSTS AND THE STRUCTURE OF THE GALACTIC HALO

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 273:3 (1995) 755-771

Authors:

P PODSIADLOWSKI, MJ REES, M RUDERMAN

Gamma-ray bursts and the structure of the Galactic halo

ANN NY ACAD SCI 759 (1995) 283-286

Authors:

P Podsiadlowski, MJ Rees, M Ruderman

Abstract:

We have systematically investigated Galactic models for classical gamma-ray bursts (GRBs) in which gamma-ray bursters are ejected from the Galactic disk. It is relatively easy to construct models in which the predicted GRB sky distribution is isotropic and consistent with the present BATSE data if the outer halo is not spherically symmetric. The bursters must receive a velocity kick larger than similar to 600-700 km s(-1) at birth and remain active bursters for at least 10(9) yr. We suggest strongly magnetized neutron stars with magnetic fields of order 10(15) G as possible sources of classical GRBs.

ON THE HIGH SPACE VELOCITY OF X-RAY NOVA-SCO-1994 - IMPLICATIONS FOR THE FORMATION OF ITS BLACK-HOLE

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 277:2 (1995) L35-L40

Authors:

WN BRANDT, P PODSIADLOWSKI, S SIGURDSSON