Turbulent convection and pulsational stability of variable stars. I. Oscillations of long-period variables | |
Xiong, DR; Deng, L; Cheng, QL | |
刊名 | ASTROPHYSICAL JOURNAL |
1998-05-20 | |
卷号 | 499期号:1页码:355-366 |
关键词 | convection stars, oscillations stars, variables, long-period variables |
ISSN号 | 0004-637X |
英文摘要 | We have performed a linear pulsational stability survey of six series of long-period variable models with M = 1.0 M., L = 3000-8000 L., and (X, Z)=(0.700, 0.020), (0.735, 0.005). The dynamic and thermodynamic couplings between convection and oscillations are treated by using a statistical theory of nonlocal and time-dependent convection. The results show that the fundamental and all the low overtones are always pulsationally unstable for the low-temperature models when the coupling between convection and oscillations is ignored. When the coupling is considered, there is indeed a "Mira" pulsational instability region outside of the Cepheid instability strip on the H-R diagram. The coolest models near the Hayashi track are pulsationally stable. Toward high temperature, the fundamental mode becomes unstable first and then the first overtone. Some one of the second to fourth overtones may become unstable for the hotter models. All the modes higher than the fourth (n > 4) are pulsationally stable. The position and the width of such an instability region on the H-R diagram critically depends on the mass, luminosity, and metal abundance of the star. The overall properties of the dependence are the following: (1) For the same mass and luminosity, the instability region becomes slightly wider and moves to lower effective temperatures as the metal abundance increases. (2) For a given chemical abundance, the instability region becomes wider and moves to the lower effective temperature as its luminosity increases or its mass decreases. For the luminous red variables seated outside the instability strip the dynamic coupling between convection and oscillations balances or may even overtake the thermodynamic coupling. Turbulent viscosity can no longer be ignored for the pulsational instability of the low-temperature red variables. The effect of turbulent viscosity becomes more and more important for higher modes, and may finally become the main damping mechanism of the pulsation. |
学科主题 | Astronomy & Astrophysics |
WOS标题词 | Science & Technology ; Physical Sciences |
类目[WOS] | Astronomy & Astrophysics |
研究领域[WOS] | Astronomy & Astrophysics |
关键词[WOS] | STELLAR ENVELOPES ; EQUATION ; STATE ; MODELS |
收录类别 | SCI |
语种 | 英语 |
WOS记录号 | WOS:000073908100033 |
公开日期 | 2015-04-20 |
内容类型 | 期刊论文 |
源URL | [http://libir.pmo.ac.cn/handle/332002/11182] |
专题 | 紫金山天文台_院士文集_熊大闰 |
作者单位 | 1.Acad Sinica, Purple Mt Observ, Nanjing 210008, Peoples R China 2.Acad Sinica, Beijing Astron Observ, Beijing 100080, Peoples R China |
推荐引用方式 GB/T 7714 | Xiong, DR,Deng, L,Cheng, QL. Turbulent convection and pulsational stability of variable stars. I. Oscillations of long-period variables[J]. ASTROPHYSICAL JOURNAL,1998,499(1):355-366. |
APA | Xiong, DR,Deng, L,&Cheng, QL.(1998).Turbulent convection and pulsational stability of variable stars. I. Oscillations of long-period variables.ASTROPHYSICAL JOURNAL,499(1),355-366. |
MLA | Xiong, DR,et al."Turbulent convection and pulsational stability of variable stars. I. Oscillations of long-period variables".ASTROPHYSICAL JOURNAL 499.1(1998):355-366. |
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