Formation of magnetized spatial structures in the Beta Lyrae system. II. Reflection of magnetically controlled structures in the visible spectrum

IF 0.4 4区 物理与天体物理 Q4 ASTRONOMY & ASTROPHYSICS Contributions of the Astronomical Observatory Skalnate Pleso Pub Date : 2020-08-20 DOI:10.31577/caosp.2020.50.4.717
M. Skulskyy
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Abstract

This article proposes a picture of magnetized accretion structures formed during the mass transfer in the Beta Lyrae system. It is shown that the structure of the gaseous flows between the donor and the gainer is due to the spatial configuration of the donor magnetic field. Its dipole axis is deviated substantially from the line joining the centers of the components and is inclined to the orbital plane of the binary system; the center of the magnetic dipole is displaced from the donor center toward the gainer. The surface around the donor magnetic pole, which is close to the gainer, is a region of an additional matter loss from the donor surface. The effective collision of the magnetized plasma with the accretion disk is enhanced by the fast counter-rotation of this disk, especially in the secondary quadrature phases, in which the high-temperature medium and the system of formed accretion flows are observed. This concept is demonstrated, primarily, in the obvious correlations between the phase variability of the donor magnetic field and the corresponding variability of the dynamic and energy characteristics of the various complex lines. This refers to the behavior of the radial velocity curves of the emission-absorption lines formed in the gaseous structures of type H$\alpha$, HeI $\lambda$ 7065, or the variability of their equivalent width and intensity, and the variability of conventional absorption lines of the donor atmosphere. This is true for the phase variability of the absolute flux in the H$\alpha$ emission line and the fast varying of the continuum in the H$\alpha$ region as certain parameters, which reflect the phase variability of the donor magnetic field. This approach made it possible to determine the phase boundaries of the location of the magnetic polar region on the donor surface above which the matter outflows are formed.
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天琴座β星系中磁化空间结构的形成。2磁控制结构在可见光谱中的反射
本文提出了一幅在天琴座β星系的质量传递过程中形成的磁化吸积结构的图像。结果表明,供体磁场的空间构型决定了供体与增益体之间气体流动的结构。它的偶极轴与元件中心连接线有很大的偏离,并向双星系统的轨道平面倾斜;磁偶极子的中心由施主中心向增益中心偏移。供体磁极周围靠近增益器的表面是供体表面附加物质损失的区域。吸积盘的快速反旋转增强了磁化等离子体与吸积盘的有效碰撞,特别是在二次正交阶段,高温介质和形成的吸积流系统被观察到。这一概念主要体现在供体磁场的相位变异性与各种复线的动态和能量特性的相应变异性之间的明显相关性中。这是指在H $\alpha$, HeI $\lambda$ 7065型气体结构中形成的发射-吸收谱线的径向速度曲线的行为,或其等效宽度和强度的可变性,以及供体大气常规吸收谱线的可变性。H $\alpha$发射线上绝对通量的相位变化和H $\alpha$区域连续体的快速变化作为一定的参数,反映了供体磁场的相位变化。这种方法使得确定物质流出形成的供体表面上磁极区位置的相边界成为可能。
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来源期刊
CiteScore
1.10
自引率
20.00%
发文量
4
审稿时长
>12 weeks
期刊介绍: Contributions of the Astronomical Observatory Skalnate Pleso" (CAOSP) is published by the Astronomical Institute of the Slovak Academy of Sciences (SAS). The journal publishes new results of astronomical and astrophysical research, preferentially covering the fields of Interplanetary Matter, Stellar Astrophysics and Solar Physics. We publish regular papers, expert comments and review contributions.
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