Diese Anwendung erfordert Java-Skript.

Bitte aktivieren Sie Java-Script in den Browser-Einstellungen.
17th European White Dwarf Workshop: Update on AM CVn binaries
Solheim, Jan-Erik (2010)
clipboard
mla
clipboard
Solheim J. "17th European White Dwarf Workshop: Update on AM CVn binaries.", timms video, Universität Tübingen (2010): https://timms.uni-tuebingen.de:443/tp/UT_20100819_003_eurowd_0001. Accessed 28 Mar 2024.
apa
clipboard
Solheim, J. (2010). 17th European White Dwarf Workshop: Update on AM CVn binaries. timms video: Universität Tübingen. Retrieved March 28, 2024 from the World Wide Web https://timms.uni-tuebingen.de:443/tp/UT_20100819_003_eurowd_0001
harvard
clipboard
Solheim, J. (2010). 17th European White Dwarf Workshop: Update on AM CVn binaries [Online video]. 19 August. Available at: https://timms.uni-tuebingen.de:443/tp/UT_20100819_003_eurowd_0001 (Accessed: 28 March 2024).
file download bibtex   endnote
Information
title: 17th European White Dwarf Workshop: Update on AM CVn binaries
alt. title: 17th European White Dwarf Workshop - White dwarfs in novae and CVs
creator: Solheim, Jan-Erik (author)
subjects: Astronomie, Physik, Astrophysik, Workshop, White Dwarf, AM CVn binaries, Jan-Erik Solheim
description: 17th European White Dwarf Workshop, 16. bis 20. August 2010
abstract: Update on AM CVn stars (Jan-Erik Solheim) (Institute of Theoretical Astrophysics, University of Oslo, Norway) AM CVn stars are the final outcome of a fine tuned binary star evolution. They are hydrogen deficient and have orbital periods less than 65 minutes, which make them possible detectable sources for Gravitaional Wave (GW) radiation. Mass is transferred between a low mass star with a variable degree of degeneracy to a heavier white dwarf. The Sloan Digital Sky Survey and other surveys have increased the number of such binaries to 25, including 3 with orbital periods of less than 10 minutes. For these, four different models have been proposed, including one without mass transfer, driven by electricity generated by the secondary star moving in the magnetic field of the primary. AM CVn stars are also possible progenitors of SN Ia or weaker explosive events. There are at present three birth channels for AM CVn stars: Either a low mass white dwarf donor, a low mass helium star, or a strongly evolved hydrogen CV. In my talk I will discuss observational constraints that may give us possibilities to determine birth channels for AM CVn stars based on mass-radius relations.
publisher: ZDV Universität Tübingen
contributor: ZDV Universität Tübingen (producer)
creation date: 2010-08-19
dc type: image
localtype: video
identifier: UT_20100819_003_eurowd_0001
language: eng
rights: Url: https://timmsstatic.uni-tuebingen.de/jtimms/TimmsDisclaimer.html?638472431646864484