Tilted accretion discs in cataclysmic variables: Tidal instabilities and superhumps

J. R. Murray; P. J. Armitage

doi:10.1046/j.1365-8711.1998.01924.x

Tilted accretion discs in cataclysmic variables: Tidal instabilities and superhumps

J. R. Murray
, P. J. Armitage

Physics and Astronomy

Australian National University

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

34 Scopus citations

Abstract

We investigate the growth of tidal instabilities in accretion discs in a binary star potential, using three-dimensional numerical simulations. As expected from analytic work, the disc is prone to an eccentric instability provided that it is large enough to extend to the 3:1 resonance. The eccentric disc leads to positive superhumps in the light curve. It has been proposed that negative superhumps might arise from a tilted disc, but we find no evidence that the companion gravitational tilt instability can grow fast enough in a fluid disc to create a measurable inclination. The origin of negative superhumps in the light curves of cataclysmic variables remains a puzzle.

Original language	English
Pages (from-to)	561-566
Number of pages	6
Journal	Monthly Notices of the Royal Astronomical Society
Volume	300
Issue number	2
DOIs	https://doi.org/10.1046/j.1365-8711.1998.01924.x
State	Published - Oct 21 1998

Keywords

Accretion, accretion discs
Binaries: close
Hydrodynamics
Instabilities
Methods: numerical
Novae, cataclysmic variables

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10.1046/j.1365-8711.1998.01924.x

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abstract = "We investigate the growth of tidal instabilities in accretion discs in a binary star potential, using three-dimensional numerical simulations. As expected from analytic work, the disc is prone to an eccentric instability provided that it is large enough to extend to the 3:1 resonance. The eccentric disc leads to positive superhumps in the light curve. It has been proposed that negative superhumps might arise from a tilted disc, but we find no evidence that the companion gravitational tilt instability can grow fast enough in a fluid disc to create a measurable inclination. The origin of negative superhumps in the light curves of cataclysmic variables remains a puzzle.",

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T2 - Tidal instabilities and superhumps

AU - Murray, J. R.

AU - Armitage, P. J.

PY - 1998/10/21

Y1 - 1998/10/21

N2 - We investigate the growth of tidal instabilities in accretion discs in a binary star potential, using three-dimensional numerical simulations. As expected from analytic work, the disc is prone to an eccentric instability provided that it is large enough to extend to the 3:1 resonance. The eccentric disc leads to positive superhumps in the light curve. It has been proposed that negative superhumps might arise from a tilted disc, but we find no evidence that the companion gravitational tilt instability can grow fast enough in a fluid disc to create a measurable inclination. The origin of negative superhumps in the light curves of cataclysmic variables remains a puzzle.

AB - We investigate the growth of tidal instabilities in accretion discs in a binary star potential, using three-dimensional numerical simulations. As expected from analytic work, the disc is prone to an eccentric instability provided that it is large enough to extend to the 3:1 resonance. The eccentric disc leads to positive superhumps in the light curve. It has been proposed that negative superhumps might arise from a tilted disc, but we find no evidence that the companion gravitational tilt instability can grow fast enough in a fluid disc to create a measurable inclination. The origin of negative superhumps in the light curves of cataclysmic variables remains a puzzle.

KW - Accretion, accretion discs

KW - Binaries: close

KW - Hydrodynamics

KW - Instabilities

KW - Methods: numerical

KW - Novae, cataclysmic variables

UR - https://www.scopus.com/pages/publications/0000525208

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DO - 10.1046/j.1365-8711.1998.01924.x

M3 - Article

AN - SCOPUS:0000525208

SN - 0035-8711

VL - 300

SP - 561

EP - 566

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

Tilted accretion discs in cataclysmic variables: Tidal instabilities and superhumps

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