Theoretical light curve for the recurrent nova RS ophiuchi - Determination of the white dwarf mass, composition, and distance

Mariko Kato

doi:10.1086/169775

Theoretical light curve for the recurrent nova RS ophiuchi - Determination of the white dwarf mass, composition, and distance

Mariko Kato

外国語・総合教育教室

研究成果: Article › 査読

16 被引用数 (Scopus)

抄録

Sequences of steady mass-loss solutions are constructed for the envelopes on a white dwarf with mass 1.33, 1.35, 1.36, 1.37, and 1.377 M_⊙ as models of the decay phase of novae. The envelopes are assumed to have a uniform chemical composition with X = 0.73, 0.6, 0.52, 0.44, 0.33, and 0.11 for hydrogen and Z = 0.02 for heavy elements by weight. An excellent agreement with the observed light curves of UV and optical is obtained in the models with a white dwarf mass of 1.36 M_⊙ with hydrogen content X = 0.52, and 1.37 M_⊙ with X = 0.6. The distance to RS Oph is obtained to be 1.6 kpc from the comparison between the theoretical and observed light curves. The success of this wind model is a strong indication from the theoretical point of view that RS Oph is a thermonuclear runaway event.

本文言語	English
ページ（範囲）	471-474
ページ数	4
ジャーナル	Astrophysical Journal
巻	369
号	2
DOI	https://doi.org/10.1086/169775
出版ステータス	Published - 1991 3月 10

ASJC Scopus subject areas

天文学と天体物理学
宇宙惑星科学

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10.1086/169775

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引用スタイル

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title = "Theoretical light curve for the recurrent nova RS ophiuchi - Determination of the white dwarf mass, composition, and distance",

abstract = "Sequences of steady mass-loss solutions are constructed for the envelopes on a white dwarf with mass 1.33, 1.35, 1.36, 1.37, and 1.377 M⊙ as models of the decay phase of novae. The envelopes are assumed to have a uniform chemical composition with X = 0.73, 0.6, 0.52, 0.44, 0.33, and 0.11 for hydrogen and Z = 0.02 for heavy elements by weight. An excellent agreement with the observed light curves of UV and optical is obtained in the models with a white dwarf mass of 1.36 M⊙ with hydrogen content X = 0.52, and 1.37 M⊙ with X = 0.6. The distance to RS Oph is obtained to be 1.6 kpc from the comparison between the theoretical and observed light curves. The success of this wind model is a strong indication from the theoretical point of view that RS Oph is a thermonuclear runaway event.",

keywords = "Nucleosynthesis, Stars: binaries, Stars: individual (RS Oph), Stars: mass loss, Stars: novae, Stars: white dwarfs",

author = "Mariko Kato",

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T1 - Theoretical light curve for the recurrent nova RS ophiuchi - Determination of the white dwarf mass, composition, and distance

AU - Kato, Mariko

PY - 1991/3/10

Y1 - 1991/3/10

N2 - Sequences of steady mass-loss solutions are constructed for the envelopes on a white dwarf with mass 1.33, 1.35, 1.36, 1.37, and 1.377 M⊙ as models of the decay phase of novae. The envelopes are assumed to have a uniform chemical composition with X = 0.73, 0.6, 0.52, 0.44, 0.33, and 0.11 for hydrogen and Z = 0.02 for heavy elements by weight. An excellent agreement with the observed light curves of UV and optical is obtained in the models with a white dwarf mass of 1.36 M⊙ with hydrogen content X = 0.52, and 1.37 M⊙ with X = 0.6. The distance to RS Oph is obtained to be 1.6 kpc from the comparison between the theoretical and observed light curves. The success of this wind model is a strong indication from the theoretical point of view that RS Oph is a thermonuclear runaway event.

AB - Sequences of steady mass-loss solutions are constructed for the envelopes on a white dwarf with mass 1.33, 1.35, 1.36, 1.37, and 1.377 M⊙ as models of the decay phase of novae. The envelopes are assumed to have a uniform chemical composition with X = 0.73, 0.6, 0.52, 0.44, 0.33, and 0.11 for hydrogen and Z = 0.02 for heavy elements by weight. An excellent agreement with the observed light curves of UV and optical is obtained in the models with a white dwarf mass of 1.36 M⊙ with hydrogen content X = 0.52, and 1.37 M⊙ with X = 0.6. The distance to RS Oph is obtained to be 1.6 kpc from the comparison between the theoretical and observed light curves. The success of this wind model is a strong indication from the theoretical point of view that RS Oph is a thermonuclear runaway event.

KW - Nucleosynthesis

KW - Stars: binaries

KW - Stars: individual (RS Oph)

KW - Stars: mass loss

KW - Stars: novae

KW - Stars: white dwarfs

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