δScuti变星和相关天体

δScuti型变星是赫罗图上A3～F5区间的主序及其以上的一种周期短于0.3 d的单周期或多周期小变幅脉动变星.与它们相关的变星有矮造父变星、γ Dol变星、蓝离散星、金属线星、A型特殊星、λBoo变星和δDel变星.有些赫比格Ae/Be星也存在类似的脉动.对自1964年起的研究工作进行了系统的总结,给出了1995年后新发现的相关变星数和最可靠的周期变化表,提出应当用双星轨道光时效应来解释实测得到的变星周期变化中的幅度很大的成分.统计表明自转越快变幅越小,因此年轻星团中不可能存在大变幅变星.变幅随周期的分布有3个极大值,最大变幅是周期0.17d处的1.0 mag.恒星系统内变星的平均周期越短系统的年龄越大,金属丰度也越低.     

δScuti变量和相关天体

δScuti型变星是赫罗图上A3-F5区间的主序及其以上的一种周期短于0.3d的单周期或多周期小变幅脉动变星，与它们相关的变星有矮造父变星，γDol变星，蓝离散星，金属线星，A型特殊星，λBoo变星的δDel变星，有些赫比格Ae/Be星也存在类似的脉动，对自1964年起的研究工作进行了系统的总结，给出了1995年后新发现的相关变星数和最可靠的周期变化表，提出应当用双星轨道光时效应来解释实测得到的变星周期变化中的幅度很大的成分，统计表明自转越快变幅越小，因此年轻星团中不可能存在大变幅变星，变幅随周期的分布有3个极大值，最大变由是周期0.17d处的1.0mag，恒星系统内变星的平均周期越短系统的年龄越大，金属丰度也越低。     

在球状星团M15内发现的一颗新型变星——热超短周期造父变星

球状星团M15里的K1082星,是一颗新型的变星。这颗变星的周期是0~d.087004,变幅约为0.2等。它的光变曲线具有缓长的上升段和快陡的下降段。它的B-V色指数约为 0.10.其在颜色星等图上的位置,处在盾牌座δ型星的热边界的左外。它可能属于人们正在探寻讨论中的星族Ⅱ超短周期造父变星的一个次型,我们暂称之为热超短周期造父变星。     

球状星团M4中另一颗周期约一天的小变幅新红变星

A66是位于球状星团M4红巨星支最底部(近亚巨星支顶部)的一颗红星．按其在C-M图上的位置,A66可能是星团成员．目前尚无自行或视线速度的测定．发现A66为一小变幅的新变星,周期约一天, v波段的总变幅约0．05等．但是,如果自行或视线速度测定证实为其成员星,那么变光的原因也许不是脉动．因为按照熊氏理论,这样低光度的红星其脉动周期不可能长于0．1天．对于A66这样的周期和变幅,又很难想像变光原因是黑子星的自转或EW型双星的交食．或者,A66不是星团成员．     

仙王β型变星的观测物理特性和研究进展

仙王β型变星是一类早型(08-B6,Ⅰ—Ⅴ)、短周期、低变幅的脉动变星。本文综述了这类变星的观测物理特性,并着重从实测方面介绍了近年来一些研究进展,新变星的寻找,高精度测光,高分辨率的光谱观测研究,光学偏振,紫外,红外,X射线探测等。仙王β型变星的脉动机制至今尚未解决。     

热超短周期造父变星的共性

热超短周期造父变星的周期≤0.~d1、变幅≥0.~m2、光谱型为A.在银河系中呈延仲球状分布;在银晕星族的球状星团和年老盘族的运动星群中都有.在色星等图上,处于造父不稳定带的左外侧而温度较高,故简称热造父变星.球状星团中超短周期造父变星现知五颗.三颗是热造父变星:半人马ω的V65星(M_v= 0.~m82),M56的V11星(M_v= 0.~m10)和M15的K1082星(M_v=0.~m09)。它们在色星等图上的位置紧邻,亮度和天琴RR型星相近,但色均较蓝.它们都处在银河系中呈延伸球状分布的贫金属星团中.银河系中已知超短周期造父变星的周期变幅图上,有可用0.~m2简示的变幅分布隙,和两条周期分布隙.其中变幅≥0.~m2、周期≤ 0.~d1的-群共九颗,是银河系一般星场的热造父变星.其银纬分布除一颗是b= 10°44′外,余均为|h|>20°.这九颗中的两颗是年老盘族的运动星群的成员,-颗具有空间速度高和金属线强度ΔS≥2的星族Ⅱ星的特点.     

关于仙王座β型变星的脉动激发机制

仙王座β型变星是一类上部主序的短周期内因变星，找到它们及其它早型变星的脉动激发机制是一个长期未能解决的问题．新发表的不透明度表格ＯＰＡＬ比早期的表格有显著的提高，这样不透明度机制似乎就能够解释仙王座β型变星的脉动．本文用线性径向非绝热脉动理论研究了仙王座β型星的脉动稳定性，检查了不透明度机制，用的不透明度是对ＯＰＡＬ表格的一种分析逼近，但计算的十阶以下脉动模式都是稳定的．由于未能证实别人得到的脉动不稳定性，所以我们怀疑不透明度机制可能还不足以激发仙王座β型星，因而给它们的激发机制下一个肯定的结论似乎还为时过早．我们认为对仙王座β型星的脉动起因，有必要进一步研究不透明度机制或别的脉动激发机制．     

脉动稳定性对恒星对流包层氦丰度的依赖

捅姜利用一种非局部和非定常的恒星对流理论,计算了3种不同氦丰度(Y=0.28,0.13,0.00)、太阳金属丰度(Z=0.02)、质量1.4~3.0 M_☉恒星演化模型的径向和低球谐阶F-p8模的线性非绝热脉动.数值计算结果表明,理论的δScuti变星脉动不稳定区红边界几乎不随氦丰度变化而改变.随着氦丰度降低,δScuti变星脉动不稳定区蓝边界向低温方向推移,脉动不稳定区中热方的高温星变得脉动更稳定;而冷方的低温星则变得脉动更不稳定.这似乎表明不大可能用氦弥散去解释δScuti脉动不稳定带中的不变星.然而脉动不稳定带热方和冷方中的不变星与变星的比例可能作为是否存在氦弥散的一种观测证据.     

IRAS 14122－5947：一颗新发现的超长周期变星

ＩＲＡＳ１４１２２－５９４７是一颗新发现的变星，其Ｉｃ星等的变幅超过５．５，光变周期可能是１９３５天或３９３０天，近红外光谱与ＯＨ／ＩＲ星相似，并具有一个冷的尘埃包层。对ＳＥＤ模型拟合结果表明，它在ＡＧＢ最终阶段的质量流失率为３．６（－６）Ｍ⊙／ｙｒ．我们认为它可能是处在ＡＧＢ的最后阶段，质量流失时而进行时而停止。     

βCephei变星的脉动不稳定带的研究(英文)

在本文中我们对两种不同的 βCephei变星的理论脉动不稳定带作了比较。它们具有明显的不同之处。为了确定这种变星的脉动不稳定带的轮廓 ,我们根据 4 9颗 βCephei变星的观测资料作了统计研究。在从样本星的色指数 (B -V) ,(U -B)和视差得到它们的有效温度和光度之后 ,我们发现在赫罗图上它们大多数是位于主序带内的。而且这些样本星的质量都位于 7M⊙ 到 30M⊙ 之间。和理论模型的比较表明我们提出的具有光度上边界和红蓝边界的 βCephei变星的理论脉动不稳定带跟观测吻合得更好     

球状星团M4中的一颗新红变星

G302=L3107是球状星团M4中的一颗红星，目前还没有自行或视线速度的测定，Greenstein和Lee分别给出此星的星等和色指数为：     

A new red variable star in the globularcluster M4

G302 = L3107 is a red star located at the lowest end of the red giant branch of the globular cluster M4. According to its location on the C-M diagram, G302 may be a cluster member. No proper motion or radial velocity determinations are available up to date.

We discovered that C302 is a new variable star with a main period of 1.24719 day and a peak to peak amplitude of about 0.3 mag in V. It may have a second period of 2.38249 day with an amplitude of about 0.05 mag. If it is a cluster member, then there will be interesting implications for the the theory of stellar evolution.     

Another new small-amplitude red variable star with period of about one day in the globular cluster M4

A66 is a red star located at the lowest end of the red giant branch (near the top of the sub-giant branch) of the globular cluster M4. According to its location on the GM diagram, A66 may be a cluster member. No proper motion and radial velocity determinations are available up to date.

We discovered that A66 is a small-amplitude new variable star with a period of about one day and the peak to peak amplitude is about 0.05 mag in V.

However, if its membership can be confirmed by proper motion and radial velocity determinations, the cause of light variation may be not pulsation. This is because according to Xiong's theory, a red star at such low luminosity can not pulsate at a period longer than 0.1 day. Then other causes such as EW type eclipsing variable star or rotation of a spotted star might be responsible. Otherwise A66 is not a cluster member.     

G328: A Small-Amplitude Red Variable with a Period Near One Day

G328 = A65 = L3314 (V = 13.83, B-V = 1.91) is a field star in the direction of the globular cluster M4. If we take E(B - V) = 0.40, then its (B - V)0 = 1.51, corresponding to a spectral type of K5III if it is a giant star; or of dM2 if it is a dwarf. Observations at both the MSSSO and Yunnan Observatory have shown that G328 is a new variable with peak to peak amplitude - 0.05 mag in V. While it is not unusual for so red a star to be a variable, special attention must be paid to its short period of about one day. If the variability is due to pulsation, the spectral type and luminosity as well as effective temperature should be determined in order to compare it with Xiong's theory.     

Results of Photometric and Spectroscopic Observations of the Young Variable Star V730 Cep

We present the results of our photometric (V RI) and spectroscopic observations of the young variable star V730 Cep (MisV1147) classified by Uemura et al. (2004) as a Herbig Be star. Our photometry confirms the conclusion of the above authors that this star has a complex pattern of variability including periodic or quasi-periodic brightness variations with a period of about 14 days and deep Algol-like minima typical for UX Ori stars. Our spectroscopy shows that the classification of V730 Cep as a Herbig Be star is wrong. Actually, this star has a much lower temperature and belongs to the family of T Tauri stars. This allows us to explain the nature of the unusual photometric activity of V730 Cep based on a combination of two well-known models of variable circumstellar extinction applied to young stars: AA Tau- and UX Oritype variability. It follows from our observations that the color tracks on the V ?(V ?I) color–magnitude diagram for these models slightly differ: the AA Tau-type variability of circumstellar extinction is caused by larger grains than the UX Ori-type variability. Such a difference can be due to an increase in the characteristic sizes of circumstellar dust as the star is approached and has a simple explanation: small dust grains evaporate faster than large ones.     

Variable Star Status of Two Stars:V204 and I-I-39 in M3

The star I-I-42 (=vZ1390),a cluster member in M3,located near the red edge of the instability strip of the horizontal branch,was discovered by Roberts and Sandage as a low amplitude variable,it was designated as V204 in the "second catalogue of variable stars in globular clusters",but its coordinates given in all versions of this catalogue are wrong since 1955. We argue that V204 is indeed a low amplitude HB variable star,located near to the red edge of the instability strip,with a period of 0.74785d and an amplitude of about 0.04mag in V . We also find that the red cluster member star I-I-39 is a low amplitude variable with a period of 1.16d and amplitude of about 0.03mag in V which might be pulsating at the second overtone.     

BVI CCD photometry of the distant open star clusters Berkeley 81, Berkeley 99, NGC 6603 and NGC 7044

We present CCD observations for the distant northern open star clusters Berkeley 81, Berkeley 99, NGC 6603 and NGC 7044 in B V I photometric passbands. A total of 9 900 stars have been observed in fields of about 6 × 6 arcmin² of the sky around the clusters. Colour–magnitude diagrams in V , ( B  −  V ) and V , ( V  −  I ) have been generated down to V  = 22 mag and, for the first time, such diagrams have been produced for the clusters Berkeley 81 and Berkeley 99. The data serve as a base for the study of mass functions and for comparison with theoretical models. Analysis of the radial distribution of stellar surface density indicates that the radius values for Berkeley 81, Berkeley 99, NGC 6603 and NGC 7044 are 2.7, 2.8, 2.8 and 2.2 arcmin respectively. By fitting the latest convective core overshooting isochrones to the colour–magnitude diagram and using its morphological features, reddenings, distances and ages of the star clusters have been determined. Broad but well-defined main sequences with stellar evolutionary effects in the brighter stars are clearly visible in colour–magnitude diagrams of all the clusters under study. Some blue stragglers along with well-developed giant branches and red giant clumps are also clearly seen in all of them. The clusters studied here are located at a distance of ∼ 3 kpc, except for Berkeley 99 which is located at a distance of 4.9 kpc. Their linear sizes lie between 3.8 and 8.0 pc; E ( B  −  V ) values range from 0.3 to 1.0 mag, while their ages are between 0.5 and 3.2 Gyr. Thus the star clusters studied here are of intermediate and high age but are compact and distant objects.     

A search for variable stars in the globular cluster M3

We describe here the results of a photometric time-sequence survey of the globular cluster M3 (NGC 5272), in a search for contact and detached eclipsing binary stars. We have discovered only one likely eclipsing binary and one SX Phe-type star in spite of monitoring 4077 stars with V  < 20.0 and observing 25 blue straggler stars (BSS). The newly identified SX Phe star, V237, shows a light curve with a variable amplitude. Variable V238 shows variability either with a period of 0.49 d or with a period of 0.25 d. On the cluster colour–magnitude diagram, the variable occupies a position a few hundredths of a magnitude to the blue of the base of the red giant branch. V238 is a likely descendant of a binary blue straggler.   As a side result we obtained high-quality data for 42 of the previously known RR Lyrae variables, including 33 of Bailey type ab, seven type c and two double-mode pulsators. We used equations that relate the physical properties of RRc stars to their pulsation periods and Fourier parameters in order to derive masses, luminosities, temperatures and helium parameters for five of the RRc stars. We also tested equations that relate the [Fe/H], M _V and temperature of RRab stars to pulsation period and Fourier parameters. We derived [Fe/H]= −1.42 in good agreement with spectroscopic determinations.     

Speckle interferometry of nearby multiple stars. IV. Measurements in 2004 and new orbits

The results of speckle interferometric observations of 104 binary and 6 triple stars performed at the BTA 6 m telescope in 2004 October are presented. Nearby low-mass stars are mostly observed for the program, among which 59 there are new binaries recently discovered by the Hipparcos astrometric satellite. Concurrently with the diffraction-limited position measurements we obtained 154 brightness ratio measurements of binary and multiple star components in different bands of the visible spectrum. New, first-resolved binaries are the symbiotic star CH Cyg with a weak companion at 0.043″ separation and the pair of red dwarfs, GJ 913 = HIP 118212. In addition, we derived the orbital parameters for two interferometric systems: the CN-giant pair HD 210211 = HIP 109281 (P = 10.7 yr) and the G2V-K2V G2V-K2V binary GJ 9830 = HIP 116259 (P = 15.7 yr).     

Young stars in the disk of M82

We present CCD VI_C photometry in a field 1.9 − 1.3 square arcmin and positioned about 3 arcmin north-east of the centre of M82. More than 100 stars have been identified and measured above the photometric limits V = 23^m.5, I = 22^m. Most of the objects fainter than V ≈︁ 20^m should be members of M82 as expected from the statistics of foreground stars. Starlike as well as 2–3 somewhat diffuse objects - candidates of globular clusters - preferentially occupy yellow colours in the colour-magnitude diagram; extreme blue and red objects are missing. The colour-magnitude diagram indicates continuing star formation in this part of the disk. The absence of blue stars is caused by reddening; no convincing explanation is found for the missing red supergiants. Young stars are distributed throughout the whole field, the youngest being concentrated in associations at the SW edge of the field. To cope with the very irregular background created by the galaxy' s main body and with the low contrast of many of the stars against this background, a modified photometric method is introduced in which the background is estimated using the intensities in a ring drawn very tightly around the star in the wings of the point spread function.