太阳型恒星光谱中的对流线偏移

IF 0.5 4区 物理与天体物理 Q4 ASTRONOMY & ASTROPHYSICS Kinematics and Physics of Celestial Bodies Pub Date : 2022-05-18 DOI:10.3103/S0884591322020064
V. A. Sheminova
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引用次数: 0

摘要

测量了有效温度在4800 ~ 6200 K之间的太阳和恒星光谱的多普勒谱线位移,并估计了平均对流(粒状)速度。根据太阳光谱线位移对光学深度的依赖关系,建立了恒星光谱线位移的绝对尺度。首次获得了FGK太阳型恒星在150 ~ 700 km大范围内对流速度随大气高度的变化曲线。所有这些曲线都表明,蓝移随高度的增加而减少,这意味着通过光球的颗粒速度减慢到零。在较低的色球层,观察到强Mg - I线的红移,这表明粒状速度的方向发生了相反的变化,并证实了在600 km以上的高度粒状反转的影响。在温度较低的K星中,颗粒位移随高度的变化平均在-150 ~ 100 m/s之间,而在温度较高的FG星中,颗粒位移的变化更为剧烈,在-700 ~ 300 m/s之间。线移曲线的梯度随着有效温度的增加和恒星重力、金属丰度和年龄的减小而增大。从较冷的恒星到较热的恒星,在所有分析高度上的平均对流速度从-90到-560米/秒增加。它与宏观湍流、光谱线的不对称性和恒星的自转速度有关。我们还获得了恒星的径向速度,并将其与SIMBAD数据进行了比较。在HD 102361和HD 42936恒星上分别发现了- 21050和1775 m/s的大偏差。对于其他恒星,偏差不超过±340 m/s,这可能与SIMBAD数据中使用的平均造粒速度为-300 m/s有关。我们的分析表明,太阳型恒星的平均粒化速度是不一样的。它在较冷的恒星中比太阳低,在较热的恒星中比太阳高。因此,确定径向速度需要考虑单个恒星的粒化速度。
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Convective Line Shifts in the Spectra of Solar-Type Stars

The Doppler line shifts in the spectra of the Sun and stars with effective temperatures from 4800 to 6200 K were measured and the average convective (granulation) velocities were estimated. The absolute scale of the line shifts for the stars was established on the basis of the derived dependence of the shifts of solar lines on optical depth. For FGK solar-type stars, curves of convection velocities as a function of the altitude in the atmosphere in a large range of altitudes from 150 to 700 km were obtained for the first time. All these curves indicate a decrease in blue shifts with altitude, which means that the granulation velocities through the photosphere slow down to zero. In the lower chromosphere, red shifts of strong Mg I lines are observed, which indicate a change in the direction of granulation velocities to the opposite and confirm the effects of reversal of granulation at altitudes above 600 km. In cooler K stars, granulation shifts change with altitude on average from –150 to 100 m/s, while they change more sharply in hotter FG stars from –700 to 300 m/s. The gradient of the line shift curves increases with an increase in the effective temperature and a decrease in gravity, metallicity, and age of the star. The convective velocity of the star averaged over all analyzed altitudes increases from –90 to –560 m/s from colder to hotter stars. It correlates with macroturbulence, asymmetry of spectral lines, and the rotation velocity of the star. We also obtained the radial velocities of the stars and compared them with the SIMBAD data. Large deviations of –21 050 and 1775 m/s were found for the stars HD 102361 and HD 42936, respectively. For the rest of the stars, the deviation does not exceed ±340 m/s, which is probably associated with the use of an average granulation velocity of –300 m/s in the SIMBAD data. Our analysis has shown that the average granulation velocity is not the same for solar-type stars. It is lower in colder stars and higher in hotter stars than the Sun. Therefore, determination of the radial velocities needs to take into account the individual granulation velocities of stars.

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来源期刊
Kinematics and Physics of Celestial Bodies
Kinematics and Physics of Celestial Bodies ASTRONOMY & ASTROPHYSICS-
CiteScore
0.90
自引率
40.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: Kinematics and Physics of Celestial Bodies is an international peer reviewed journal that publishes original regular and review papers on positional and theoretical astronomy, Earth’s rotation and geodynamics, dynamics and physics of bodies of the Solar System, solar physics, physics of stars and interstellar medium, structure and dynamics of the Galaxy, extragalactic astronomy, atmospheric optics and astronomical climate, instruments and devices, and mathematical processing of astronomical information. The journal welcomes manuscripts from all countries in the English or Russian language.
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