Accretion induced collapse of white dwarfs in binary systems and their observational properties

D. T. Wickramasinghe; Jarrod R. Hurley; Lilia Ferrario; Christopher A. Tout; Paul D. Kiel

doi:10.1088/1742-6596/172/1/012037

Accretion induced collapse of white dwarfs in binary systems and their observational properties

D. T. Wickramasinghe, Jarrod R. Hurley, Lilia Ferrario, Christopher A. Tout, Paul D. Kiel

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

Neutron stars can form through core collapse (CC) following a supernova explosion of a massive star, or from a white dwarf that first forms in a binary system and then collapses into a neutron star via accretion induced collapse (AIC). So far, there have been no unambiguous identifications of AIC neutron stars in our Galaxy, although it has been suspected that they may exist among the population of binary millisecond pulsars (BMSPs). We summarise results of new calculations on the expected birth rates of binary systems with AIC neutron stars and discuss the predicted orbital period of systems with He, CO and O-Ne-Mg white dwarfs and main sequence companions. We argue that AIC systems may make an important contribution to the observed population of BMSPs.

Original language	English
Article number	012037
Journal	Journal of Physics: Conference Series
Volume	172
DOIs	https://doi.org/10.1088/1742-6596/172/1/012037
Publication status	Published - 2009

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abstract = "Neutron stars can form through core collapse (CC) following a supernova explosion of a massive star, or from a white dwarf that first forms in a binary system and then collapses into a neutron star via accretion induced collapse (AIC). So far, there have been no unambiguous identifications of AIC neutron stars in our Galaxy, although it has been suspected that they may exist among the population of binary millisecond pulsars (BMSPs). We summarise results of new calculations on the expected birth rates of binary systems with AIC neutron stars and discuss the predicted orbital period of systems with He, CO and O-Ne-Mg white dwarfs and main sequence companions. We argue that AIC systems may make an important contribution to the observed population of BMSPs.",

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AU - Wickramasinghe, D. T.

AU - Hurley, Jarrod R.

AU - Ferrario, Lilia

AU - Tout, Christopher A.

AU - Kiel, Paul D.

PY - 2009

Y1 - 2009

N2 - Neutron stars can form through core collapse (CC) following a supernova explosion of a massive star, or from a white dwarf that first forms in a binary system and then collapses into a neutron star via accretion induced collapse (AIC). So far, there have been no unambiguous identifications of AIC neutron stars in our Galaxy, although it has been suspected that they may exist among the population of binary millisecond pulsars (BMSPs). We summarise results of new calculations on the expected birth rates of binary systems with AIC neutron stars and discuss the predicted orbital period of systems with He, CO and O-Ne-Mg white dwarfs and main sequence companions. We argue that AIC systems may make an important contribution to the observed population of BMSPs.

AB - Neutron stars can form through core collapse (CC) following a supernova explosion of a massive star, or from a white dwarf that first forms in a binary system and then collapses into a neutron star via accretion induced collapse (AIC). So far, there have been no unambiguous identifications of AIC neutron stars in our Galaxy, although it has been suspected that they may exist among the population of binary millisecond pulsars (BMSPs). We summarise results of new calculations on the expected birth rates of binary systems with AIC neutron stars and discuss the predicted orbital period of systems with He, CO and O-Ne-Mg white dwarfs and main sequence companions. We argue that AIC systems may make an important contribution to the observed population of BMSPs.

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DO - 10.1088/1742-6596/172/1/012037

M3 - Article

SN - 1742-6588

VL - 172

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

M1 - 012037

ER -

Accretion induced collapse of white dwarfs in binary systems and their observational properties

Abstract

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