We present a rapid binary-evolution algorithm that enables modelling of even the most complex binary systems. In addition to all aspects of single-star evolution, features such as mass transfer, mass accretion, common-envelope evolution, collisions, supernova kicks and angular momentum loss mechanisms are included. In particular, circularization and synchronization of the orbit by tidal interactions are calculated for convective, radiative and degenerate damping mechanisms. We use this algorithm to study the formation and evolution of various binary systems. We also investigate the effect that tidal friction has on the outcome of binary evolution. Using the rapid binary code, we generate a series of large binary populations and evaluate the...
To first approximation, a binary system conserves its angular momentum while it evolves to its state...
Carbon-enhanced metal-poor stars, CH stars, barium stars, and extrinsic S stars, among other classes...
Massive binaries play a vital role in governing the evolution of dense stellar systems such as star ...
We present a rapid binary evolution algorithm that enables modelling of even the most complex binary...
We follow the evolution of compact binaries under the coupled effect of tides and stellar winds unti...
Abstract: Before binary components interact, they evolve as single stars do. We therefore first crit...
Context. In tight binary star systems, tidal interactions can signicantly inuence the rotational and...
Abstract. The tidal interactions in binary stellar systems are studied under the assumption that the...
Binary stars are abundant. We describe their orbits and the effects of tides and introduce the conce...
Context. Tides are known to play an important role in binary evolution, leading in particu...
Because the majority of massive stars are born as members of close binary systems, populations of ma...
It has long been recognized that binary stars represent a significant and important population withi...
We provide a detailed description of a new stellar evolution code, BINSTAR, which has been developed...
We present a novel way of modeling common envelope evolution in binary and few-body systems. We cons...
Two-body tidal capture, as proposed by Fabian et al. (1975), is the favored mechanism for the format...
To first approximation, a binary system conserves its angular momentum while it evolves to its state...
Carbon-enhanced metal-poor stars, CH stars, barium stars, and extrinsic S stars, among other classes...
Massive binaries play a vital role in governing the evolution of dense stellar systems such as star ...
We present a rapid binary evolution algorithm that enables modelling of even the most complex binary...
We follow the evolution of compact binaries under the coupled effect of tides and stellar winds unti...
Abstract: Before binary components interact, they evolve as single stars do. We therefore first crit...
Context. In tight binary star systems, tidal interactions can signicantly inuence the rotational and...
Abstract. The tidal interactions in binary stellar systems are studied under the assumption that the...
Binary stars are abundant. We describe their orbits and the effects of tides and introduce the conce...
Context. Tides are known to play an important role in binary evolution, leading in particu...
Because the majority of massive stars are born as members of close binary systems, populations of ma...
It has long been recognized that binary stars represent a significant and important population withi...
We provide a detailed description of a new stellar evolution code, BINSTAR, which has been developed...
We present a novel way of modeling common envelope evolution in binary and few-body systems. We cons...
Two-body tidal capture, as proposed by Fabian et al. (1975), is the favored mechanism for the format...
To first approximation, a binary system conserves its angular momentum while it evolves to its state...
Carbon-enhanced metal-poor stars, CH stars, barium stars, and extrinsic S stars, among other classes...
Massive binaries play a vital role in governing the evolution of dense stellar systems such as star ...