A disc wind origin for the optical spectra of dwarf novae in outburst
A disc wind origin for the optical spectra of dwarf novae in outburst
Many high-state cataclysmic variables (CVs) exhibit blue-shifted absorption features in their ultraviolet (UV) spectra -- a smoking-gun signature of outflows. However, the impact of these outflows on {\em optical} spectra remains much more uncertain. During its recent outburst, the eclipsing dwarf nova V455 And displayed strong optical emission lines whose cores were narrower than expected from a Keplerian disc. Here, we explore whether disc + wind models developed for matching UV observations of CVs can also account for these optical spectra. Importantly, V455~And was extremely bright at outburst maximum: the accretion rate implied by fitting the optical continuum with a standard disc model is $\dot{M}_{\rm acc} \simeq 10^{-7}~{\rm M}_\odot~{\rm yr^{-1}}$. Allowing for continuum reprocessing in the outflow helps to relax this constraint. A disk wind can also broadly reproduce the optical emission lines, but only if the wind is (i) highly mass-loaded, with a mass-loss rate reaching $\dot{M}_{\rm wind} \simeq 0.4 \dot{M}_{\rm acc}$, and/or (ii) clumpy, with a volume filling factor $f_V \simeq 0.1$. The same models can describe the spectral evolution across the outburst, simply by lowering $\dot{M}_{\rm acc}$ and $\dot{M}_{\rm wind}$. Extending these models to lower inclinations and into the UV produces spectra consistent with those observed in face-on high-state CVs. We also find, for the first time in simulations of this type, P-Cygni-like absorption features in the Balmer series, as have been observed in both CVs and X-ray binaries. Overall, dense disc winds provide a promising framework for explaining multiple observational signatures seen in high-state CVs, but theoretical challenges persist.
astro-ph.HE, astro-ph.SR, stars: V455 Andromedae, stars: dwarf novae, stars: winds, outflows, accretion, accretion discs, novae, cataclysmic variables
1199-1211
Tampo, Yusuke
43c5895e-8ec6-4a3a-9f54-7ebe2d95869f
Knigge, Christian
ac320eec-631a-426e-b2db-717c8bf7857e
Long, Knox S.
e749f6fb-96dc-489b-aa2c-86151f4ff579
Matthews, James H.
7c623891-70ae-4808-8e75-83f7973cae35
Segura, Noel Castro
0dee6349-38d9-4a0e-b389-df77063638d5
4 July 2024
Tampo, Yusuke
43c5895e-8ec6-4a3a-9f54-7ebe2d95869f
Knigge, Christian
ac320eec-631a-426e-b2db-717c8bf7857e
Long, Knox S.
e749f6fb-96dc-489b-aa2c-86151f4ff579
Matthews, James H.
7c623891-70ae-4808-8e75-83f7973cae35
Segura, Noel Castro
0dee6349-38d9-4a0e-b389-df77063638d5
Tampo, Yusuke, Knigge, Christian, Long, Knox S., Matthews, James H. and Segura, Noel Castro
(2024)
A disc wind origin for the optical spectra of dwarf novae in outburst.
Monthly Notices of the Royal Astronomical Society, 532 (1), .
(doi:10.1093/mnras/stae1557).
Abstract
Many high-state cataclysmic variables (CVs) exhibit blue-shifted absorption features in their ultraviolet (UV) spectra -- a smoking-gun signature of outflows. However, the impact of these outflows on {\em optical} spectra remains much more uncertain. During its recent outburst, the eclipsing dwarf nova V455 And displayed strong optical emission lines whose cores were narrower than expected from a Keplerian disc. Here, we explore whether disc + wind models developed for matching UV observations of CVs can also account for these optical spectra. Importantly, V455~And was extremely bright at outburst maximum: the accretion rate implied by fitting the optical continuum with a standard disc model is $\dot{M}_{\rm acc} \simeq 10^{-7}~{\rm M}_\odot~{\rm yr^{-1}}$. Allowing for continuum reprocessing in the outflow helps to relax this constraint. A disk wind can also broadly reproduce the optical emission lines, but only if the wind is (i) highly mass-loaded, with a mass-loss rate reaching $\dot{M}_{\rm wind} \simeq 0.4 \dot{M}_{\rm acc}$, and/or (ii) clumpy, with a volume filling factor $f_V \simeq 0.1$. The same models can describe the spectral evolution across the outburst, simply by lowering $\dot{M}_{\rm acc}$ and $\dot{M}_{\rm wind}$. Extending these models to lower inclinations and into the UV produces spectra consistent with those observed in face-on high-state CVs. We also find, for the first time in simulations of this type, P-Cygni-like absorption features in the Balmer series, as have been observed in both CVs and X-ray binaries. Overall, dense disc winds provide a promising framework for explaining multiple observational signatures seen in high-state CVs, but theoretical challenges persist.
Text
2406.14396v1
- Author's Original
Text
stae1557
- Version of Record
More information
Accepted/In Press date: 20 June 2024
e-pub ahead of print date: 2 July 2024
Published date: 4 July 2024
Keywords:
astro-ph.HE, astro-ph.SR, stars: V455 Andromedae, stars: dwarf novae, stars: winds, outflows, accretion, accretion discs, novae, cataclysmic variables
Identifiers
Local EPrints ID: 496444
URI: http://eprints.soton.ac.uk/id/eprint/496444
ISSN: 1365-2966
PURE UUID: c3896290-6fc9-4721-8ae4-6a9b3359fab5
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Date deposited: 13 Dec 2024 17:43
Last modified: 21 Aug 2025 03:06
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Contributors
Author:
Yusuke Tampo
Author:
Knox S. Long
Author:
James H. Matthews
Author:
Noel Castro Segura
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