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81.
We consider the problem of the distortion of the photospheric spectrum for a young star as its light is scattered in the inner accretion disk in the dust grain evaporation region. In T Tauri stars, this region is at a distance of the order of several stellar radii and is involved in the large-scale motions of matter with velocities of ~100 km s?1 or higher. The light scattering in such a medium causes the frequency of the scattered radiation to be shifted due to the Doppler effect. We analyze the influence of this effect on the absorption line profiles in the spectra of T Tauri stars using classical results of the theory of radiative transfer. We consider two models of a scattering medium: (i) a homogeneous cylindrical surface and (ii) a cylindrical surface with an azimuth-dependent height (such conditions take place during the accretion of matter onto a star with an oblique magnetic dipole). We show that in the first case, the scattering of the photospheric radiation causes the absorption lines to broaden. If the motion of the circumstellar matter in the dust evaporation region is characterized by two velocity components, then the line profile of the scattered radiation is asymmetric, with the pattern of the asymmetry depending on the direction of the radial velocity. In the second case, the scattered radiation can cause periodic shifts of the absorption line centroid, which can be perceived by an observer as periodic radial-velocity variations in the star. We suggest that precisely this effect is responsible for the low-amplitude radial-velocity variations with periods close to the stellar rotation periods that have recently been found in some of the T Tauri stars. 相似文献
82.
83.
84.
85.
Crimean Astrophysical Observatory; Leningrad State University. Translated from Astrofizika, Vol. 28, No. 2, pp. 355–362, March–April, 1988. 相似文献
86.
87.
We consider the conditions in which emission lines of hydrogen, ionized calcium and ionized magnesium are formed in the spectra of T Tauri-stars. It is well known that there is a problem in interpreting the two-component profiles which are frequently observed in H, Caii K, and Mgii k lines. This problem can be solved if we abandon an assumption which is customarily made in modelling stellar winds: namely, the approximation of a continuous medium. Our calculations indicate that line profiles similar to those which are observed can be obtained by making very simple assumptions about spherical-symmetry and quasistationary gas flow provided that the following conditions are also stratified: (i) the stellar wind consists of separate gas structure (blobs) with a volume-filling factorq of order 0.1; (ii) the blobs decelerate in the outer regions of the wind.The first of these conditions indicates that the outflow of the gas from the surface of a T Tauri-star is extremely inhomogeneous. At any instant, only about 1/10 of the stellar surface acts as a source of stellar wind. Although this conclusion is at first sight very unexpected, it is nevertheless entirely logical if the outflow of gas from the star originates in magnetic activity on the stellar surface. 相似文献
88.
V. P. Grinin 《Astrophysics》2000,43(4):446-457
A young binary system is considered, having a mass ratio of components M
2/M
1 1, in which the low-velocity part of the stellar wind of the low-mass component (the so-called disk wind) can be partially captured by the gravitation of the primary component. It is shown that a large-scale redistribution of matter and angular momentum between the inner and outer parts of the gas-dust disk surrounding the binary system occurs as a result, with a consequent increase in the rate of accretion onto the primary component. In cases in which the orbital eccentricity of the secondary component is nonzero, modulation of the rate of accretion onto the primary component should be observed with a period equal to the orbital period, while in the case of a highly elongated orbit the mass accretion acquires a pulsed character. Since dust may be present in the disk wind from the secondary component, the capture of stellar wind will result in an increase in the effective geometrical thickness of the gas-dust disk. For this reason, the infrared (IR) emission excesses of such stars (especially in the near-IR range) and their intrinsic polarization can be considerably greater than in the case of a single star surrounded by a circumstellar disk of the same mass, and a periodic component may also be present in their behavior with time. Moreover, because of disruption of the axial symmetry in the dust distribution in the vicinity of the young binary system, the orbital period may also be present in its brightness variations. The role of these effects in the physics of young stars is discussed. 相似文献
89.
90.
We have modeled the Hα, Hβ, and Hγ (Balmer series), P14 (Paschen series), and Brγ (Brackett series) hydrogen lines formed in the inner regions of the accretion disk around the Herbig Ae star UX Ori. Our calculations are based on spectra obtained with the Nordic Optical Telescope (NOT) and the IRTF. We computed a grid of non-LTE models for a radiating area in the accretion disk and determined the basic parameters of the lines using the method of Sobolev. Analyzing the theoretical and observed line profiles, equivalent widths, and luminosities, we have estimated the accretion rate and electron-temperature distribution in the inner parts of the accretion disk. The accretion rate of UX Ori is about $\dot M_a = (3 - 10) \times 10^{ - 9} M_ \odot /yr$ , and the temperature distribution is consistent with the power law T(r)=T(r *)(r/r *)?1/n , where the electron temperature near the stellar surface T(r *) is 15000–20000 K and the power-law index n≈2–3 is about two to three. The resulting value for $\dot M_a $ eliminates problems connected with the application of magnetospheric accretion models to Herbig Ae/Be stars. Another important conclusion is that, at the estimated accretion rate, the energy release is substantially (about two orders of magnitude) lower than the stellar luminosity. Therefore, the optical radiation of UX Ori accretion disks cannot appreciably contribute to the observed variability of these stars, which must be determined mainly by variability in the circumstellar extinction. 相似文献