J. Echevarr'ia, J. V. Hernández Santisteban, O. Segura Montero, S. Ram'irez, A. Ruelas-Mayorga, L. S'anchez, R. Michel, R. Costero, D. González-Buitrago, J. Olivares
{"title":"AH Her的新径向速度观测:潮汐半径外物质的证据","authors":"J. Echevarr'ia, J. V. Hernández Santisteban, O. Segura Montero, S. Ram'irez, A. Ruelas-Mayorga, L. S'anchez, R. Michel, R. Costero, D. González-Buitrago, J. Olivares","doi":"10.1093/mnras/staa3615","DOIUrl":null,"url":null,"abstract":"Spectroscopic observations of AH Herculis during a deep quiescent state are put forward. We found the object in a rare long minima, allowing us to derive accurately the semi-amplitudes: $K_1 =121 \\pm \\, 4$ \\kms\\ and $K_2 =152 \\pm 2$ \\kms\\ and its mass functions $M_W{ \\sin }^{ 3 }i=0.30 \\pm 0.01$ M$_{\\odot}$ and $M_R{ \\sin }^{ 3 }i=0.24 \\pm 0.02$ M$_{\\odot}$, while its binary separation is given by $a \\sin i =1.39 \\pm 0.02$~R$_{\\odot}$. The orbital period $P_{orb}$~=~ 0.25812~$\\pm~0.00032$~days was found from a power spectrum analysis of the radial velocities of the secondary star. These values are consistent with those determined by \\citet{Horne:1986}. Our observations indicate that K5 is the most likely spectral type of the secondary. We discuss why we favour the assumption that the donor in AH Her is a slightly evolved star, in which case we find that the best solution for the inclination yields $i = 48^\\circ \\pm 2^\\circ$. Nonetheless, should the donor be a ZAMS star, we obtain that the inclination is between $ i = 43^\\circ$ and $i = 44^\\circ$. We also present Doppler tomography of H$\\alpha$ and H$\\beta$, and found that the emission in both lines is concentrated in a large asymmetric region at low velocities, but at an opposite position to the secondary star, outside the tidal radius and therefore at an unstable position. We also analyse the H$\\alpha$ and H$\\beta$ line profiles, which show a single broad peak and compare it with the previous quiescent state study which shows a double-peaked profile, providing evidence for its transient nature.","PeriodicalId":8493,"journal":{"name":"arXiv: Solar and Stellar Astrophysics","volume":"5 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2020-11-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"New radial velocity observations of AH Her: evidence for material outside the tidal radius\",\"authors\":\"J. Echevarr'ia, J. V. Hernández Santisteban, O. Segura Montero, S. Ram'irez, A. Ruelas-Mayorga, L. S'anchez, R. Michel, R. Costero, D. González-Buitrago, J. Olivares\",\"doi\":\"10.1093/mnras/staa3615\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Spectroscopic observations of AH Herculis during a deep quiescent state are put forward. We found the object in a rare long minima, allowing us to derive accurately the semi-amplitudes: $K_1 =121 \\\\pm \\\\, 4$ \\\\kms\\\\ and $K_2 =152 \\\\pm 2$ \\\\kms\\\\ and its mass functions $M_W{ \\\\sin }^{ 3 }i=0.30 \\\\pm 0.01$ M$_{\\\\odot}$ and $M_R{ \\\\sin }^{ 3 }i=0.24 \\\\pm 0.02$ M$_{\\\\odot}$, while its binary separation is given by $a \\\\sin i =1.39 \\\\pm 0.02$~R$_{\\\\odot}$. The orbital period $P_{orb}$~=~ 0.25812~$\\\\pm~0.00032$~days was found from a power spectrum analysis of the radial velocities of the secondary star. These values are consistent with those determined by \\\\citet{Horne:1986}. Our observations indicate that K5 is the most likely spectral type of the secondary. We discuss why we favour the assumption that the donor in AH Her is a slightly evolved star, in which case we find that the best solution for the inclination yields $i = 48^\\\\circ \\\\pm 2^\\\\circ$. Nonetheless, should the donor be a ZAMS star, we obtain that the inclination is between $ i = 43^\\\\circ$ and $i = 44^\\\\circ$. We also present Doppler tomography of H$\\\\alpha$ and H$\\\\beta$, and found that the emission in both lines is concentrated in a large asymmetric region at low velocities, but at an opposite position to the secondary star, outside the tidal radius and therefore at an unstable position. 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引用次数: 1
摘要
提出了大力神星在深静止状态下的光谱观测结果。我们找到了一个罕见的长极小值,使我们能够准确地推导出半振幅:$K_1 =121 \pm \, 4$\kms和$K_2 =152 \pm 2$\kms及其质量函数$M_W{ \sin }^{ 3 }i=0.30 \pm 0.01$ M $_{\odot}$和$M_R{ \sin }^{ 3 }i=0.24 \pm 0.02$ M $_{\odot}$,而其二进制分离由$a \sin i =1.39 \pm 0.02$ R $_{\odot}$给出。轨道周期$P_{orb}$ = 0.25812 $\pm~0.00032$天是通过对该副恒星径向速度的功率谱分析得出的。这些值与\citet{Horne:1986}确定的值一致。我们的观察表明,K5是最可能的光谱型的次星系。我们讨论了为什么我们倾向于假设AH Her的供体是一颗稍微进化的恒星,在这种情况下,我们发现倾角的最佳解决方案是$i = 48^\circ \pm 2^\circ$。然而,如果捐赠者是一颗ZAMS星,我们得到的倾斜度介于$ i = 43^\circ$和$i = 44^\circ$之间。我们还对H $\alpha$和H $\beta$进行了多普勒断层扫描,发现两条线的辐射在低速时集中在一个大的不对称区域,但在与副恒星相反的位置,在潮汐半径之外,因此处于不稳定的位置。我们还分析了H $\alpha$和H $\beta$线剖面,它们显示一个单一的宽峰,并将其与先前的静态状态研究结果进行了比较,该研究显示了双峰剖面,为其瞬态性质提供了证据。
New radial velocity observations of AH Her: evidence for material outside the tidal radius
Spectroscopic observations of AH Herculis during a deep quiescent state are put forward. We found the object in a rare long minima, allowing us to derive accurately the semi-amplitudes: $K_1 =121 \pm \, 4$ \kms\ and $K_2 =152 \pm 2$ \kms\ and its mass functions $M_W{ \sin }^{ 3 }i=0.30 \pm 0.01$ M$_{\odot}$ and $M_R{ \sin }^{ 3 }i=0.24 \pm 0.02$ M$_{\odot}$, while its binary separation is given by $a \sin i =1.39 \pm 0.02$~R$_{\odot}$. The orbital period $P_{orb}$~=~ 0.25812~$\pm~0.00032$~days was found from a power spectrum analysis of the radial velocities of the secondary star. These values are consistent with those determined by \citet{Horne:1986}. Our observations indicate that K5 is the most likely spectral type of the secondary. We discuss why we favour the assumption that the donor in AH Her is a slightly evolved star, in which case we find that the best solution for the inclination yields $i = 48^\circ \pm 2^\circ$. Nonetheless, should the donor be a ZAMS star, we obtain that the inclination is between $ i = 43^\circ$ and $i = 44^\circ$. We also present Doppler tomography of H$\alpha$ and H$\beta$, and found that the emission in both lines is concentrated in a large asymmetric region at low velocities, but at an opposite position to the secondary star, outside the tidal radius and therefore at an unstable position. We also analyse the H$\alpha$ and H$\beta$ line profiles, which show a single broad peak and compare it with the previous quiescent state study which shows a double-peaked profile, providing evidence for its transient nature.
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