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1.
A. Poveda 《Astrophysics and Space Science》1988,142(1-2):67-78
Summary A discussion is presented of the IDS, LDS, and Gliese's catalogues, inasmuch as they are relevant to the multiplicity of field
stars and the distribution of separations of the companions in binaries and triples.
The effect of dissociation of binaries with time is exhibited for a ‘quasi-unbiased’ sample of 106 nearby binaries taken from
Gliese's catalogue. There are no binaries as old or older than the Sun with separations larger than 4000 AU, while binaries
younger than the Sun may have separations as large as 180000 AU. The rate of this disruption seems too large to be produced
by field stars; probably molecular clouds and spiral arms are the most effective agents.
It appears that the size of the inner commet cloud cannot be much larger than 2000–4000 AU. 相似文献
2.
The Hertzsprung-Russell diagram of the Large Magellanic Cloud compiled recently by Fitzpatrick & Garmany (1990) shows that
there are a number of supergiant stars immediately redward of the main sequence although theoretical models of massive stars
with normal hydrogen abundance predict that the region 4.5 ≤ logT
eff ≤ 4.3 should be un-populated (“gap”). Supergiants having surface enrichment of helium acquired for example from a previous
phase of accretion from a binary companion, however, evolve in a way so that the evolved models and observed data are consistent
— an observation first made by Tuchman & Wheeler (1990). We compare the available optical data on OB supergiants with computed
evolutionary tracks of massive stars of metallicity relevant to the LMC with and without helium-enriched envelopes and conclude
that a large fraction (≈ 60 per cent) of supergiant stars may occur in binaries. As these less evolved binaries will later evolve into massive X-ray
binaries, the observed number and orbital period distribution of the latter can constrain the evolutionary scenarios of the
supergiant binaries. The distributions of post main sequence binaries and closely related systems like WR + O stars are bimodal-consisting
of close and wide binaries in which the latter type is numerically dominating. When the primary star explodes as a supernova
leaving behind a neutron star, the system receives a kick and in some cases can lead to runaway O-stars. We calculate the
expected space velocity distribution for these systems. After the second supernova explosion, the binaries in most cases,
will be disrupted leading to two runaway neutron stars. In between the two explosions, the first born neutron star’s spin
evolution will be affected by accretion of mass from the companion star. We determine the steady-state spin and radio luminosity
distributions of single pulsars born from the massive stars under some simple assumptions. Due to their great distance, only
the brightest radio pulsars may be detected in a flux-limited survey of the LMC. A small but significant number of observable
single radio pulsars arising out of the disrupted massive binaries may appear in the short spin period range. Most pulsars
will have a low velocity of ejection and therefore may cluster around the OB associations in the LMC. 相似文献
3.
《New Astronomy Reviews》2004,48(9):731-739
Extragalactic eclipsing binaries open a new perspective on the study of stellar structure and evolution. Stars in different galaxies have formed and evolved in environments with chemical histories that may differ from those of the solar neighborhood. For example, the LMC and SMC contain low-metallicity, young massive stars that are no longer found in our Galaxy. Eclipsing binaries, yielding accurate determinations of masses, radii and temperatures, allow for critical tests of, e.g., convective overshooting, mass loss, and internal structure. In addition, they provide an empirical calibration of the mass-luminosity relationship. In this paper, I present some results from ongoing programs on the determination of physical properties and distances to eclipsing binaries in the LMC, the SMC, and M31. In particular, I focus on aspects relevant to stellar astrophysics, and on the contributions of these eclipsing binaries to our understanding of the structure and chemical evolution of the host galaxies. 相似文献
4.
A. Collier Cameron 《Astronomische Nachrichten》2007,328(10):1030-1033
Theories of meridional circulation and differential rotation in stellar convective zones predict trends in surface flow patterns on main-sequence stars that are amenable to direct observational testing. Here I summarise progress made in the last few years in determining surface differential rotation patterns on rapidly-rotating young main-sequence stars of spectral types F, G, K and M. Differential rotation increases strongly with increasing effective temperature along the main sequence. The shear rate appears to increase with depth in the sub-photospheric layers. Tidal locking in close binaries appears to suppress differential rotation, but better statistics are needed before this conclusion can be trusted. (© 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
5.
N. M. Law S. T. Hodgkin C. D. Mackay J. E. Baldwin 《Astronomische Nachrichten》2005,326(10):1024-1025
We present preliminary results from the first part of the LuckyCam late M‐dwarf binarity survey. We survey a sample of 48 nearby (< 40 pc) and red (M5–M9) stars with the novel high angular resolution visible light imaging technique Lucky Imaging, in only 8 hours of 2.5m telescope time. We discover 10 new binaries; although the survey is sensitive to brown dwarf companions none are detected. The orbital radius distribution of the newly discovered binaries broadly matches that of previous detections by other groups, although we do discover one wide binary at ∼40 AU. (© 2005 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
6.
G. Cayrel de Strobel 《Astronomy and Astrophysics Review》1996,7(3):243-288
Summary. This review is primarily directed to the question whether photometric solar analogues remain such when subjected to detailed
spectroscopic analyses and interpreted with the help of internal stucture models. In other words, whether the physical parameters:
mass, chemical composition, age (determining effective temperature and luminosity), chromospheric activity, equatorial rotation,
lithium abundance, velocity fields etc., we derive from the spectral analysis of a photometric solar analogue, are really
close to those of the Sun. We start from 109 photometric solar analogues extracted from different authors. The stars selected
had to satisfy three conditions: i) their colour index must be contained in the interval: –0.69, ii) they must possess a trigonometric parallax, iii) they must have undergone a high resolution detailed spectroscopic
analysis. First, this review presents photometric and spectrophotometric researches on solar analogues and recalls the pionneering
work on these stars by the late Johannes Hardorp. After a brief discussion on low and high resolution spectroscopic researches,
a comparison is made between effective temperatures as obtained, directly, from detailed spectral analyses and those obtained,
indirectly, from different photometric relations. An interesting point in this review is the discussion on the tantalilizing
value of the of the Sun, and the presentation of a new reliable value of this index. A short restatement of the kinematic properties of
the sample of solar analogues is also made. And, finally, the observational diagram, obtained with 99 of the initially presented 109 analogues, is compared to a theoretical diagram. This latter has been constructed with a grid of internal structure models for which, (very important for this investigation),
the Sun was used as gauge. In analysing the position, with respect to the Sun, of each star we hoped to find a certain number
of stars tightly neighbouring the Sun in mass, chemical composition and state of evolution. The surprising result is that
the stars occupy in this HR Diagram a rather extended region around the Sun, many of them seem more evolved and older than
the Sun, and only 4 of the evolved stars seem younger. The age of some stars in the sample is also discussed in terms of chromospheric
activity and Li-content. Our conclusion is much the same as that contained in previous papers we have written on the subject:
in spite of a much larger number of stars, we have not been able to nominate a single star of the sample for a “perfect good
solar twin”. Another aim in beginning, 25 years ago, this search for solar analogues, was to have ready a bunch of stars resembling
the Sun and analysed spectroscopically in detail, in order that, when planets hunters of solar type stars, finally would have
found such a specimen, we would have been able to immediately compare the physical parameters of this star to those of the
Sun. We have been lucky enough: one of the good solar analogues we present herewith, is 51 Pegasi (HD 217014) which, according
to the very recent observations by Mayor and Queloz (1995), has a planet orbiting around it. And what is more: two other
stars possessing planets: 47 Ursae Majoris (HD 95128) and 70 Virginis (HD 117176), have just been discovered by Marcy and
Butler (187 Meeting of the AAS, January 1996). One of them, 47 Ursae Majoris, is also included in the list of photometric solar analogues.
The other star, 70 Virginis, has only been included after the “Planets News”, because the colour index of this star is slightly higher than the prescribted limit of the selection, (, instead, 0.69). It would have been a pity to leave the third ” planet star out of the competition. 相似文献
7.
Wu-Ming Yang Shao-Lan Bi 《中国天文和天体物理学报》2008,8(6)
We investigate the rotation profile of solar-like stars with magnetic fields. A diffu-sion coefficient of magnetic angular momentum transport is deduced. Rotating stellar models with different mass incorporating the coefficient are computed to give the rotation profiles. The total angular momentum of a solar model with only hydrodynamic instabilities is about 13 times larger than that of the Sun at the age of the Sun, and this model can not reproduce quasi-solid rotation in the radiative region. However, the solar model with magnetic fields not only can reproduce an almost uniform rotation in the radiative region, but also a total angular momentum that is consistent with the helioseismic result at the 3 σ level at the age of the Sun. The rotation of solar-like stars with magnetic fields is almost uniform in the radiative region, but for models of 1.2-1.5 M⊙, there is an obvious transition region between the convective core and the radiative region, where angular velocity has a sharp radial gradient, which is different from the rotation profile of the Sun and of massive stars with magnetic fields. The change of angular velocity in the transition region increases with increasing age and mass. 相似文献
8.
J. -L. Halbwachs 《Astrophysics and Space Science》1988,142(1-2):139-143
Summary A sample of CPM stars selected from the AGK2/3 is used to investigate the following points: (a) What is the distribution of
mass ratios of binaries with wide separations?, and (b) what is the proportion of wide binaries among stars. The distribution
previously derived from the visual binaries of theBright Star Catalogue seem to be an acceptable solution to question (a). On the basis of this, the proportion of stars that have a companion with
a separation between 300 and 10000 AU is found to be about 13%. Another possibility is that the distribution of mass ratios
is similar to the initial mass function derived by Miller and Scalo (1979) for stars lighter than the Sun. The proportion
of wide binaries with mass ratios greater than 0.16 should then be around 17%. 相似文献
9.
New Claret evolutionary model-tracks, constructed for the first time for studying close binary systems (CBS) including tidal
evolution constants, are used to determine the age of 112 eclipsing-variable stars in the Svechnikov-Perevozkina catalog by
the method of isochrones. There is some interest in comparing the calculated ages with previous estimates obtained for these
same close binary systems using evolutionary modeltracks for individual stars taking their mass loss into account. A correlation
of the ages of the principal and secondary components is noted, which is most marked for massive close binaries with principal
components having masses M1 ≥ 3 M⊙. A rejuvenating effect is found to occur for the systems studied here as calculated on the new tracks; it is most distinct
for low-mass close binaries with a total mass M1 + M2 ≤ 3.5 M⊙ and is predicted theoretically in terms of magnetic braking. The calculated broadband grid of isochrones, from zero-age main-sequence
(ZAMS) to the age of the galaxy, can be used for estimating the ages of close binaries from other catalogs. Ages are given
for the 112 eclipsing-variable close binaries with detached components lying within the main sequence.
__________
Translated from Astrofizika, Vol. 50, No. 2, pp. 299–312 (May 2007). 相似文献
10.
J. L. Christiansen A. Derekas L. L. Kiss M. C. B. Ashley S. J. Curran D. W. Hamacher M. G. Hidas M. R. Thompson J. K. Webb T. B. Young 《Monthly notices of the Royal Astronomical Society》2008,385(4):1749-1763
We present a new catalogue of variable stars compiled from the data taken for the University of New South Wales Extrasolar Planet Search. From 2004 October to 2007 May, 25 target fields were each observed for one to four months, resulting in ∼87 000 high-precision light curves with 1600–4400 data points. We have extracted a total of 850 variable light curves, 659 of which do not have a counterpart in the General Catalogue of Variable Stars, the New Suspected Variables catalogue or the All Sky Automated Survey southern variable star catalogue. The catalogue is detailed here, and includes 142 Algol-type eclipsing binaries, 23 β Lyrae-type eclipsing binaries, 218 contact eclipsing binaries, 53 RR Lyrae stars, 26 Cepheid stars, 13 rotationally variable active stars, 153 uncategorized pulsating stars with periods <10 d, including δ Scuti stars, and 222 long period variables with variability on time-scales of >10 d. As a general application of variable stars discovered by extrasolar planet transit search projects, we discuss several astrophysical problems which could benefit from carefully selected samples of bright variables. These include (i) the quest for contact binaries with the smallest mass ratio, which could be used to test theories of binary mergers; (ii) detached eclipsing binaries with pre-main-sequence components, which are important test objects for calibrating stellar evolutionary models and (iii) RR Lyrae-type pulsating stars exhibiting the Blazhko effect, which is one of the last great mysteries of pulsating star research. 相似文献
11.
E. Schatzman 《Astrophysics and Space Science》1999,265(1-4):97-97
The aim of this work is to present a transport process which is likely to have a great importance for the internal constitution
of the stars. In order to set the problem, we first give a short presentation of the physical properties of the Sun and stars,
described usually under the names of `Standard Solar Model' or `Standard Stellar Models' (SSM). Next we show that an important question about SSM is that they do not explain the age dependance of lithium deficiency
of stars of known age: stars of galactic clusters and the Sun. It has been suggested a long time ago to assume the presence
of a macrosocpic diffusion process in the radiative zone, below the surface convective zone of solar like stars. It is then
possible for the lithium present in the convective zone to be carried to the thermonuclear burning level below the convective
zone. The first assumption was that differential rotation generates turbulence and therefore that a turbulent diffusion process
takes place. However, this model predicts a lithium abundance which is strongly rotation dependant, contrary to the observations.
Furthermore, the diffusion coefficient being large all over the radiative zone, it prevents the possibility of gravitational
separation by diffusion and consequently leads to an impossibility of explaining the difference of helium abundance between
the surface and the center of the Sun. The consequence is obviously that we need to take into account another physical process.
Stars having a mass M < 1.3 M
⊙ have a convective zone which begins close to the stellar surface and extends down to a depth which is an appreciable fraction
of stellar radius. In the convective zone, strong stochastic motions take care, at least partially, of heat transfer. These
motions do not vanish at the lower boundary and generate internal waves into the radiative zone. These random internal waves
are at the origin of a diffusion process which can be considered as responsible of the diffusive transport of lithium down
to the lithium burning level. This is certainly not the only physical process responsible of lithium deficiency in main sequence
stars, but its properties open the way to a completely consistent analysis of lithium deficiency. The model of generation
of gravity waves is based on a model of heat transport in the convective zone by diving plumes. The horizontal component of
the turbulent motion at the boundary of the convective zone is supposed to generate the horizontal motion of internal waves.
The result is a large horizontal component of the diffusion coefficient, which produces in a short time an horizontal uniform
chemical composition. It is known that gravity waves, in the absence of any dissipative process, cannot generate vertical
mixing. Therefore, the vertical component of the diffusion coefficient is entirely dependant of radiative damping. It decreases
quickly in the radiative zone, but is large enough to be responsible of lithium burning. Due to the radial dependance of velocity
amplitude, the diffusion coeficient increases when approaching the stellar center. However, very close to the center, non-linear
dissipative and radiative damping of internal waves become large and the diffusion coefficient vanishes at the very center.
The development of this abstract can be found in E. Schatzman (1996, J. Fluid Mech.
322, 355).
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
12.
The frequency of Be and Ae stars in spectroscopic binaries and Algol binaries is examined based on the available catalogue data, and compared with that of stars in theBright Star Catalogue. It is shown that in binary systems Be and Ae stars reveal different statistical behaviours. The frequency of Be stars in spectroscopic binaries shows a notable peak in its orbital-period distribution in the range of 100–300 days, suggesting a statistical group separated from Algol systems. In contrast, most of Ae stars in spectroscopic binaries belong to the Algol systems. 相似文献
13.
Yan Lin-Shan 《Astrophysics and Space Science》1988,142(1-2):39-46
Summary Informations on 736 pairs of visual binaries are given in the form of the Tables. The General Catalogue gives ephemerides
(t,θ°,ρ″) in 20 years (1984–2003) for each pair with the figures of its apparent elliptical orbit where the positions of secondary
component relative to the primary one at different epochs are indicated.The General Catalogue contains four parts: Part one — Source and Grading of Orbit; Part two — Ephemérides and Atlas of Apparent Orbits; Part three
— Classifications of Visual Binary Stars; Part four — Indexes of Visual Binary Stars. The principle of calculation and the
statistical data are presented in this paper. There are seven statistical tables, giving the elements distribution of true
and apparent orbits, grading distribution of orbits, number distribution with different physical property of component of
binary star. The number of binary stars in anyone constellation, the number of binary stars brighter than 6m.5. The number of binary stars nearer than 25 parsec. 相似文献
14.
CHENG Zheng ZHANG Cheng-min ZHAO Yong-heng WANG De-hua PAN Yuan-yue LEI Ya-juan 《Chinese Astronomy and Astrophysics》2014
By reviewing the methods of mass measurements of neutron stars in four different kinds of systems, i.e., the high-mass X-ray binaries (HMXBs), low-mass X-ray binaries (LMXBs), double neutron star systems (DNSs) and neutron star-white dwarf (NS-WD) binary systems, we have collected the orbital parameters of 40 systems. By using the boot-strap method and the Monte-Carlo method, we have rebuilt the likelihood probability curves of the measured masses of 46 neutron stars. The statistical analysis of the simulation results shows that the masses of neutron stars in the X-ray neutron star systems and those in the radio pulsar systems exhibit different distributions. Besides, the Bayes statistics of these four different kind systems yields the most-probable probability density distributions of these four kind systems to be (1.340 ± 0.230)M8, (1, 505 ± 0.125)M8,(1.335 ± 0.055)M8 and (1.495 ± 0.225)M8, respectively. It is noteworthy that the masses of neutron stars in the HMXB and DNS systems are smaller than those in the other two kind systems by approximately 0.16M8. This result is consistent with the theoretical model of the pulsar to be accelerated to the millisecond order of magnitude via accretion of approximately 0.2M8. If the HMXBs and LMXBs are respectively taken to be the precursors of the BNS and NS-WD systems, then the influence of the accretion effect on the masses of neutron stars in the HMXB systems should be exceedingly small. Their mass distributions should be very close to the initial one during the formation of neutron stars. As for the LMXB and NS-WD systems, they should have already under- gone the process of suffcient accretion, hence there arises rather large deviation from the initial mass distribution. 相似文献
15.
Mário J. P. F. G. Monteiro Jørgen Christensen-Dalsgaard Michael J. Thompson 《Monthly notices of the Royal Astronomical Society》2000,316(1):165-172
The possibility of observing solar-type oscillations on other stars is of great relevance to investigating the uncertain aspects of the internal structure of stars. One of these aspects is the convective overshoot that takes place at the borders of the envelopes of stars of mass similar to, or lower than, the Sun. It affects the temperature stratification, mixing, rotation and magnetic-field generation. Asteroseismology can provide an observational test for the studies of the structure of such overshoot regions.
The seismic study of the transition in the Sun, located at the base of the convection zone, has been successful in determining the characteristics of this layer in the Sun. In this work we consider the extension of the analysis to other solar-type stars (of mass between 0.85 and 1.2 M⊙ ) in order to establish a method for determining the characteristics of their convective envelopes. In particular, we hope to be able to establish seismologically that a star does indeed possess a convective envelope, to measure the size of the convective region and also to constrain the properties of an overshoot layer at the bottom of the envelope. The limitations in terms of observational uncertainties and stellar characteristics, and the detectability of an overshoot layer, are discussed. 相似文献
The seismic study of the transition in the Sun, located at the base of the convection zone, has been successful in determining the characteristics of this layer in the Sun. In this work we consider the extension of the analysis to other solar-type stars (of mass between 0.85 and 1.2 M
16.
We critically re-examine the available data on the spectral types, masses and radii of the secondary stars in cataclysmic variables (CVs) and low-mass X-ray binaries (LMXBs), using the new catalogue of Ritter &38; Kolb as a starting point. We find there are 55 reliable spectral type determinations and only 14 reliable mass determinations of CV secondary stars (10 and 5, respectively, in the case of LMXBs). We derive new spectral type–period, mass–radius, mass–period and radius–period relations, and compare them with theoretical predictions. We find that CV secondary stars with orbital periods shorter than 7–8 h are, as a group, indistinguishable from main-sequence stars in detached binaries. We find that it is not valid, however, to estimate the mass from the spectral type of the secondary star in CVs or LMXBs. We find that LMXB secondary stars show some evidence for evolution, with secondary stars which are slightly too large for their mass. We show how the masses and radii of the secondary stars in CVs can be used to test the validity of the disrupted magnetic braking model of CV evolution, but we find that the currently available data are not sufficiently accurate or numerous to allow such an analysis. As well as considering secondary star masses, we also discuss the masses of the white dwarfs in CVs, and find mean values of − ⊙ below the period gap, and − ⊙ above the period gap. 相似文献
17.
Astrometric CCD observations of 1123 stars with large proper motions (μ > 300 mas yr−1) from the LSPM (I/298) catalog in the declination zone +30°–+70° have been carried out with the Pulkovo normal astrograph
since 2006. The observational program includes mostly stars that previously have not entered into high-accuracy projects to
determine the proper motions. Our studies are aimed at determining new proper motions of fast stars in the HCRF/UCAC3 system
and searching for stars with invisible companions in the immediate Galactic neighborhoods of the Sun. Having analyzed about
10 000 CCD frames, we have obtained the equatorial coordinates of 414 program stars in the HCRF/UCAC3 system at an accuracy
level of 10–50 mas and determined their new proper motions. To derive the proper motions, we have used the data from several
star catalogs and surveys (M2000, CMC14, 2MASS, SDSS) as early epochs. The epoch differences range from 5 to 13 years (on
average, about 10 years); the mean accuracy of the derived proper motions is 4–5 mas yr−1. For 70 stars, we have revealed significant differences between the derived proper motions and those from the LSPM and I/306A
catalogs (these proper motions characterize the mean motion of the photocenter in 50 years or more). Apart from systematic
errors, these differences can result from the existence of invisible components of the program stars. 相似文献
18.
Michaël De Becker 《Astronomy and Astrophysics Review》2007,14(3-4):171-216
In this paper, I present a general discussion of several astrophysical processes likely to play a role in the production of
non-thermal emission in massive stars, with emphasis on massive binaries. Even though the discussion will start in the radio
domain where the non-thermal emission was first detected, the census of physical processes involved in the non-thermal emission
from massive stars shows that many spectral domains are concerned, from the radio to the very high energies. First, the theoretical
aspects of the non-thermal emission from early-type stars will be addressed. The main topics that will be discussed are respectively
the physics of individual stellar winds and their interaction in binary systems, the acceleration of relativistic electrons,
the magnetic field of massive stars, and finally the non-thermal emission processes relevant to the case of massive stars.
Second, this general qualitative discussion will be followed by a more quantitative one, devoted to the most probable scenario
where non-thermal radio emitters are massive binaries. I will show how several stellar, wind and orbital parameters can be
combined in order to make some semi-quantitative predictions on the high-energy counterpart to the non-thermal emission detected
in the radio domain. These theoretical considerations will be followed by a census of results obtained so far, and related
to this topic. These results concern the radio, the visible, the X-ray and the γ-ray domains. Prospects for the very high energy γ-ray emission from massive stars will also be addressed. Two particularly interesting examples—one O-type and one Wolf-Rayet
binary—will be considered in details. Finally, strategies for future developments in this field will be discussed. 相似文献
19.
Samarasinha NH 《The Astrophysical journal》2000,535(2):L107-L110
We have compared the kinematics and metallicity of the main-sequence binary and single uvby F stars from the Hipparcos catalog to see if the populations of these stars originate from the same statistical ensemble. The velocity dispersions of the known unresolved binary F stars have been found to be dramatically smaller than those of the single F stars. This suggests that the population of these binaries is, in fact, younger than that of the single stars, which is further supported by the difference in metal abundance: the binaries turn out to be, on average, more metal rich than the single stars. So, we conclude that the population of these binaries is indeed younger than that of the single F stars. Comparison of the single F stars with the C binaries (binary candidates identified in Suchkov & McMaster) has shown, on the other hand, that the latter stars are, on average, older than the single F stars. We suggest that the age difference between the single F stars, known unresolved binaries, and C binaries is associated with the fact that stellar evolution in a binary systems depends on the binary components' mass ratio and separation, with these parameters being statistically very different for the known binaries and C binaries (e.g., mostly substellar secondaries in C binaries vs. stellar secondaries in known binaries). In general we conclude that the populations of known binaries, C binaries, and single F stars do not belong to the same statistical ensemble. The implications of the discovered age difference between these populations along with the corresponding differences in kinematics and metallicity should be important not only for understanding the evolution of stars but also for the history of star formation and the evolution of the local Galactic disk. 相似文献
20.
K. G. Strassmeier 《Solar physics》1994,152(1):314-314
Observations of rotational modulation of continuum brightness and photospheric and chromospheric spectral-line profiles of late-type stars indicate the presence of very inhomogeneous surface temperature distributions. We present three stellar examples (VY Ari, HR 7275, HU Vir) where time-series photometry is used to trace the evolution of spotted regions. Simultaneous spectroscopy and Doppler imaging for one of the three stars (HU Virgo, Fig. 1) makes it possible to compute the temperature distribution of the photosphere and the relative intensity distribution of parts of the chromosphere (from CaII K and H line profiles). The combination of time-series spot modeling and Doppler imaging enabled us to determine thesign and amount of differential surface rotation on HU Vir. We found a big, cool polar spot (see figure below) and a differential (surface) rotation law where higher-latitude regions rotate faster than lower-latitude regions (opposite to what we see on the Sun). Currently, this ensemble of techniques - time-series photometry and photospheric and chromospheric Doppler imaging - is only applicable to stars overactive by approximately a factor of 100 as compared to the active Sun, e.g. the evolved components in RS CVn-type binaries and some rapidly-rotating, single, pre-main sequence stars or giant stars. Stellar rotation is a fundamental parameter for (magnetic) activity. Starspots, or any other surface inhomogeneities, allow one to derive very precise stellar rotation rates and, if coupled with seismological observations of solar-type stars, could provide information on the internal angular momentum distribution in overactive late-type stars.To be published in Astronomy & Astrophysics. 相似文献