Symbiotic nova

Symbiotic novae are slow irregular eruptive variable stars with very slow nova-like outbursts with an amplitude of between 9 and 11 magnitudes. The symbiotic nova remains at maximum for one or a few decades, and then declines towards its original luminosity. Variables of this type are double star systems with one red giant, which probably is a Mira variable,^[1] and one a hot compact object (usually a white dwarf), with markedly contrasting spectra and whose proximity and mass characteristics indicate it as a symbiotic star. They are divided into D-type (dusty) or S-type (stellar), depending on whether the giant is a Mira variable or not.^[2]

The red giant fills its Roche lobe so that matter is transferred to the white dwarf and accumulates until a nova-like outburst occurs, caused by ignition of thermonuclear fusion. The temperature at maximum is estimated to rise up to 200,000 K, similar to the energy source of novae, but dissimilar to the dwarf novae. The slow luminosity increase would then be simply due to time needed for growth of the ionization front in the outburst.^[3]

It is believed that the white dwarf component of a symbiotic nova remains below the Chandrasekhar limit, so that it remains a white dwarf after its outburst.^[3]

One example of a symbiotic nova is V1016 Cygni, whose outburst in 1971–2007 clearly indicated a thermonuclear explosion.^[4] Other examples are HM Sagittae and RR Telescopii.^[1]

References[edit]

^ ^a ^b Bryan, Greg L.; Kwok, Sun (1991). "Energy distributions of symbiotic novae" (PDF). The Astrophysical Journal. 368: 252–260. Bibcode:1991ApJ...368..252B. doi:10.1086/169688. hdl:10722/179631. S2CID 121786223.
^ Mikołajewska, J. (2007). "Symbiotic Stars: Continually Embarrassing Binaries". Baltic Astronomy. 16: 1–9. Bibcode:2007BaltA..16....1M.
^ ^a ^b MURSET U.; NUSSBAUMER H. (1994). "Temperatures and luminosities of symbiotic novae". Astronomy & Astrophysics. 282: 586–604. Bibcode:1994A&A...282..586M.
^ Photometric and Spectroscopic Evolution of the Symbiotic Nova ... Archived 2016-03-03 at the Wayback Machine

External links[edit]

SEAL P. (1990). "A discussion on the classification and evolution of symbiotic stars". Astrophys. Space Sci. 174 (2): 321–325. Bibcode:1990Ap&SS.174..321S. doi:10.1007/BF00642518. S2CID 121276497.
Friedjung, Michael (1993). "Models of symbiotic stars". NASA. 507: 647–662. Bibcode:1993NASSP.507..647F.

[Brykwok-1] Bryan, Greg L.; Kwok, Sun (1991). "Energy distributions of symbiotic novae" (PDF). The Astrophysical Journal. 368: 252–260. Bibcode:1991ApJ...368..252B. doi:10.1086/169688. hdl:10722/179631. S2CID 121786223.

[Mikołajewska2007-2] Mikołajewska, J. (2007). "Symbiotic Stars: Continually Embarrassing Binaries". Baltic Astronomy. 16: 1–9. Bibcode:2007BaltA..16....1M.

[mursnuss-3] MURSET U.; NUSSBAUMER H. (1994). "Temperatures and luminosities of symbiotic novae". Astronomy & Astrophysics. 282: 586–604. Bibcode:1994A&A...282..586M.

[4] Photometric and Spectroscopic Evolution of the Symbiotic Nova ... Archived 2016-03-03 at the Wayback Machine

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v t e White dwarf
Formation	Chandrasekhar limit PG 1159 star Stellar evolution Hertzsprung–Russell diagram Mira variable
Fate	Black dwarf Type Ia supernova Candidates Neutron star Pulsar Magnetar Related links Stellar black hole Related links Compact star Quark star Exotic star Extreme helium star Subdwarf B star Helium planet
In binary systems	Nova Remnant List Dwarf nova Micronova Symbiotic nova Cataclysmic variable star AM CVn star Polar Intermediate polar X-ray binary Super soft X-ray source Binary pulsar Helium flash Carbon detonation
Properties	Pulsating Urca process Electron-degenerate matter Quasi-periodic oscillations
Related	Planetary nebula List RAMBOs White dwarf luminosity function Timeline of white dwarfs, neutron stars, and supernovae
List Category

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References[edit]

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