Philipp Podsiadlowski

Irradiation pressure effects in close binary systems

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 337:2 (2002) 431-444

Authors:

SN Phillips, P Podsiadlowski

Massive star mergers: Induced mixing and nucleosynthesis

ASTROPHYS SPACE SCI 281:1-2 (2002) 191-194

Authors:

N Ivanova, P Podsiadlowski

Abstract:

We study the nucleosynthesis and the induced mixing during the merging of massive stars inside a common envelope. The systems of interest are close binaries, initially consisting of a massive red supergiant and a main-sequence companion of a few solar masses. We apply parameterized results based on hydrodynamical simulations to model the stream-core interaction and the response of the star in a standard stellar-evolution code. Preliminary results are presented illustrating the possibility of unusual nucleosynthesis and post-merging dredge-up which can cause composition anomalies in the supergiant's envelope.

On the population of wind-accreting neutron stars in the Galaxy

ASTROPHYSICAL JOURNAL 571:1 (2002) L37-L40

Authors:

E Pfahl, S Rappaport, P Podsiadlowski

The formation of subdwarf B stars

ASTR SOC P 279 (2002) 285-290

Authors:

ZW Han, P Podsiadlowski, PFL Maxted, TR Marsh, N Ivanova

Abstract:

We performed full binary evolution calculations and carried out binary population synthesis studies in order to investigate the formation of subdwarf B (sdB) stars via, the channels of stable Roche lobe overflow (RLOF), common envelope ejection and helium white dwarf mergers. Our model is successful in the explanation of observational properties of sdB stars, e.g. we explained the orbital period - minimum companion mass (log P - M-comp) diagram, the effective temperature - surface gravity (T-eff - log g) diagram, the orbital period distribution, the log(gtheta(4)) (theta = 5040/T-eff) distribution, the mass function distribution, the binary. fraction of sdB stars, the fraction of sdB binaries with WD companions, the birth rates, the space number densities, etc. We conclude that (a) the first RLOF needs to be more stabilized than commonly assumed, (b) the first stable RLOF is not conservative, (c) common envelope ejection is very efficient.

The origin of subdwarf B stars - I. The formation channels

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 336:2 (2002) 449-466

Authors:

Z Han, P Podsiadlowski, PFL Maxted, TR Marsh, N Ivanova