共查询到20条相似文献,搜索用时 78 毫秒
1.
朱紫 《中国天文和天体物理学报》1999,(3)
利用视向速度资料和依巴谷星表的自行资料,研究了经典造父变星的银河系运动学问题.采用Ogorodnikov-Milne三维运动学模型,获得银河系旋转速度V0=240.5±10.2km/s(取太阳至银心距离为8.5kpc)同时发现,在太阳附近沿银河系旋转方向存在一种收缩运动,其值((V(/(()/R=-2.60±1.07kms-1kpc-1.本文分析了产生这种收缩运动的原因.另外,得出太阳运动速度S=18.7±0.86km/s向点=54.4°±2.9°=+26.6°±2.6° 相似文献
2.
王家骥等[1]曾得到球状星团NGC4147的绝对自行为(-2.82±0.49,2.37±0.43)mas/yr.但是,其中所用的参考星表是Brosche等[2]1985年发表的结果,含有AGK3星表的系统误差.在Dauphole等[3]给出的26个球状星团轨道远银心距(apogalacticdistance)与金属度[Fe/H]的关系图上,NGC4147处于一个特殊的位置,即按照它的远银距(52kpc),它的金属度[Fe/H]应该大于-2.0,但实际上只有-1.83[4].类似的问题在文[1]的… 相似文献
3.
经典造父变星的银河系运动学研究 总被引:2,自引:0,他引:2
利用视向速度资料和依巴谷星表的自行资料,研究了经典造父变星的银河系运动学问题。采用Ogorodnikov-Milne三维运动学模型,获得银河系旋转速度V0=240.5±10.2km/s(取太阳至银心距离为8.5kpc)。同时发现,在太阳附近沿银河系旋转方向存在一种收缩运动,其值(δVθ/δθ)/R=-2.60±1.07km s^-1kpc^-1。本分析了产生这种收缩运动的原因。另外,得出太阳运动 相似文献
4.
本文利用Kent和Gunn提供的COMA团天区414个星系的视向速度资料,以及关于团成员的统计判别结果,对COMA团进行了动力学方面的讨论,分析表明COMA团不存在显著动力学效应的整体转动。利用King-Michie模型拟合得到COMA团的核半径为5.'2(相当于210kpc,取H0=50km·s-1·Mpc-1),特征速度弥散度为935km·s-1.从动力学模型的角度来看,COMA团有较为明显的形态分层。有迹象表明团中心区域的次结构是存在的。 相似文献
5.
低质量恒星形成区Taurus-Auriga外围区ROSAT定点观测选弱发射线T Tauri星候选体(WTTS)的光谱证认新发现4个WTTS。本给出了目标源的USNO R星等、USNO坐标(J2000)、分类光谱型、Hα发射/吸收线和富LiX射线源,包括新发现WTTS的LiI吸收线强度等参量以及WTTS的特征光谱。并利用Hipparcos星表对部分目标源进行了视差和自行的研究。另外,本第一次给出 相似文献
6.
本分析了南京大学太阳塔1991年10月24日用多波段光谱仪观测到的高时间分辨率(5s)的一个2N/X2.1级白光耀斑光谱,对耀斑谱线轮廓,连续发射强度,X射线和射电爆发资料进行了综合对比,分析表明,该耀斑属I类白光耀斑,具有如下特征:(1)在白光耀斑的脉冲相期间,各波段光谱线心强度,连续辐射,谱线半宽以及线翼红不对称性与硬X射线高能波段的爆分同时达到极大;(2)Hα谱线在连续发射极大时半宽达10 相似文献
7.
1988-1992年间,我们用云南天文台1m望远镜的Coude-CCD摄谱仪系统,对大角星的Hei10830A谱线进行了高分辨率光谱观测。从1991年6月2日的观测资料中发现谱线中出现明显的发射特征。该谱线显出类似于天鹅座P型星的轮廓,有发射射 和吸收谷,发射峰的蓝移有相当于6km/s的向外速度。分析认为我们观测到的是大角星的一次以天计的短时标色球剧烈活动,它伴随着物质的向外抛射,也引起星周物质的 相似文献
8.
根据1984年5月5日土墩日珥D3线的拟合结果,本文分析了该土墩日珥的物理特性。结果发现,形成活动边缘的物质呈间歇性抛射物质的密度、温度在观测前期有显著变化,湍流速度异常之大,达30Km/s。土墩日珥的物理特性较一般,其D3线可用微观湍流3~8Km/s和低温5000~8000K解释。 相似文献
9.
用"多云模型"光谱方法分析1991年3月5日喷泉状爆发日珥的Hα光谱观测资料,导出了该日珥视向速度的二维分布;通过速度场分析,我们探测到日珥喷射速度和旋转角速度随高度的分布,结果表明该日珥的蓝移速度占绝对优势,速度变化范围为8~110km/s,速度分布不均衡、不对称,日珥中部和底部速度较大、顶部速度较小;日珥南边缘的速度梯度比北边缘的更大;日珥的喷射除表现为上升运动外还显示出向着观测者的、平均速度约为50km/s的视向运动;该日珥的旋转角速度约为7×10-4rad/s,两者随高度的变化显示出相反的特征。 相似文献
10.
XPer的新发射相:光谱与红外观测 总被引:1,自引:0,他引:1
XPer的新发射相:光谱与红外观测杭恒荣,夏剑萍中国科学院紫金山天文台,南京210008中国科学院光学天文联合实验室关键词Be星/X射线双星,发射线,JHK测光1引言XPer是一颗Be/X射线双星(4U0352+30)的光学对应体[1-3],中子星的... 相似文献
11.
太阳总辐照是指在地球大气层顶接收到的太阳总辐射照度,也叫"太阳常数",但它实际上并非常数。太阳总辐照随波长的分布即为太阳分光辐照。太阳辐照变化的研究,对理解太阳表面及内部活动的物理过程、机制,研究地球大气、日地关系,解决人类面临的全球气候变暖的挑战等,都具有重要意义。首先简单介绍了太阳辐照,回顾了太阳辐照的空间观测;接着介绍了观测数据的并合,以及对合成数据的一些研究;然后讨论了太阳辐照变化的原因,简述了太阳总辐照的重构及其在气候研究上的一些应用,并进行必要的评论;最后对未来的研究方向提出了一些看法。 相似文献
12.
本文介绍了为将已有的日食光谱仪主要部件用于1997年漠河日全食光谱观测而做的三种仪器设计方案,涉及定天镜位置、成象系统和光谱仪的光路安排。并与1983年日全食的情况对比,讨论其可行性及对观测和结果的影响。最后根据实际情况决定了观测采用的方案。 相似文献
13.
The SOHO mission: An overview 总被引:3,自引:0,他引:3
The Solar and Heliospheric Observatory (SOHO) is a space mission that forms part of the Solar-Terrestrial Science Program (STSP), developed in a collaborative effort by the European Space Agency (ESA) and the National Aeronautics and Space Administration (NASA). The STSP constitutes the first cornerstone of ESA's long-term programme known as Space Science — Horizon 2000. The principal scientific objectives of the SOHO mission are a) to reach a better understanding of the structure and dynamics of the solar interior using techniques of helioseismology, and b) to gain better insight into the physical processes that form and heat the Sun's corona, maintain it and give rise to its acceleration into the solar wind. To achieve these goals, SOHO carries a payload consisting of 12 sets of complementary instruments. SOHO is a three-axis stabilized spacecraft with a total mass of 1850 kg; 1150 W of power will be provided by the solar panels. The payload weighs about 640 kg and will consume 450 W in orbit. SOHO will be launched by an ATLAS II-AS and will be placed in a halo orbit around the Sun-Earth L1 Lagrangian point where it will be continuously pointing to Sun centre with an accuracy of 10 arcsec. Pointing stability will be better than 1 arcsec over 15 min intervals. The SOHO payload produces a continuous science data stream of 40 kbits/s which will be increased by 160 kbits/s whenever the solar oscillations imaging instrument is operated in its highrate mode. Telemetry will be received by NASA's Deep Space Network (DSN). Planning, coordination and operation of the spacecraft and the scientific payload will be conducted from the Experiment Operations Facility (EOF) at NASA's Goddard Space Flight Center (GSFC). 相似文献
14.
We analyze the observations of the hard (ACS SPI, > 150 keV) and soft (GOES, 1–8 Å) X-ray emissions and the microwave (15.5 GHz) emission in the solar flares on September 7, 2005 and December 6 and 13, 2006. The time profiles of the nonthermal emission from these flares had a complex structure, suggesting that active processes in the flare region continued for a long time (more than an hour). We have verified the linear relationship between the nonthermal flux and the time derivative of the soft X-ray flux (the Neupert effect) in the events under consideration. In the first two cases, the Neupert effect held at the time of the most intense nonthermal emission peak, but not at the decay phase of the soft X-ray emission, when the intensity of the nonthermal emission was much higher than the background values. At the same time, the hard X-ray emission was suppressed compared to the main peak, while the microwave emission remained approximately at the same level. In the December 13, 2006 event, the prolonged hard X-ray emission was difficult to observe due to the fast arrival of solar protons, but the Neupert effect did not hold for its main peak either. At comparable intensities of the microwave emission on December 6 and 13, the intensity of the hard X-ray emission on December 13 at the time of the main peak was suppressed approximately by an order of magnitude. These observational facts are indicative of several particle acceleration and interaction episodes under various physical conditions during one flare. When the Neupert effect did not hold, the interaction of electrons took place mainly in a low-density medium. An effective escape of accelerated particles into interplanetary space rather than their precipitation into dense layers of the solar atmosphere may take place precisely at this time. 相似文献
15.
We consider the relationship of electromagnetic radiation in the three most intense flares of solar cycle 23, more specifically, those of October 28, 2003, January 20, 2005, and September 7, 2005, to the acceleration and release of protons into interplanetary space. The impulsive phase of these flares lasted ~ 20 min and consisted of at least three energy release episodes, which differed by their manifestation in the soft (1–8 Å, GOES) and hard (>150 keV, INTEGRAL) X-ray ranges as well as at radio frequencies of 245 MHz and 8.8 GHz. The protons and electrons were accelerated in each episode, but with a different efficiency; the relativistic protons were accelerated only after 5–6min of impulsive-phase development after the onset of a coronal mass ejection. It is at this time that maximum hard X-ray fluxes were observed in the September 7, 2005 event, which exceeded severalfold those for the other two flares considered. We associate the record fluxes of protons with energies > 200MeV observed in the heliosphere in the September 7, 2005 event with the dynamics of the impulsive phase. The extreme intensities of the microwave emission in the October 28, 2003 and January 20, 2005 events were probably attributable to the high-energy electron trapping conditions and did not reflect the acceleration process. 相似文献
16.
We consider a number of questions pertaining to the famous Gnevyshev-Ohl rule. We discuss various formulations of the rule and show that it is not violated in its exact formulation in the last pair of 11-year cycles 22 and 23. The rule has been found to hold not only for statistical indices of solar activity but also in the context of physical parameters of the solar magnetic field: the sunspot magnetic flux and the open magnetic flux. We have established that the hypothesis by Usoskin et al. (2001) about the “loss“ of one cycle at the end of the 18th century allows the Gnevyshev-Ohl rule, which regulates the behavior of physical parameters of the solar magnetic field, to be made universal, without any exceptions, at least in the last 400 years. Thus, in fact, we can talk about the Gnevyshev-Ohl law of the long-term dynamics of the solar magnetic field, a law that holds at both normal and extreme levels of solar activity. 相似文献
17.
本文利用佘山观象台和江苏省气象局南京气象站所测的近50 年来的太阳全辐射热地面观测资料,进行了分析研究。将这些数据与同期的太阳质子事件资料相对比,分段求出它们之间的相关系数,结果表明:强质子事件的峰值往往对应太阳辐射热的谷值,而且在太阳活动周的不同阶段具有不同的相关性。对此作了简单的解释和讨论。 相似文献
18.
Helioseismology is a direct and most informative method of studying the structure and dynamics of the Sun. Determining the internal differential rotation of the Sun requires that the frequencies of its eigentones be estimated with a high accuracy, which is possible only on the basis of continuous long-term observations. The longest quasi-continuous series of data have been obtained by the Global Oscillation Network Group (GONG). The parameters of each individual mode of solar acoustic oscillations with low spherical degrees l=0, 1, 2, 3, 4, 5, 6 are determined by using 1260-day-long series of GONG observations. The mean frequency splitting by rotation for the modes of each radial order n is calculated by using all possible combinations between the eigenfrequencies in multiplets. As a result, it has become possible to statistically estimate the splitting and its measurement errors for the modes of each radial order. The mean splitting for each given degree l=1–6 is presented under the assumption of its independence of oscillation frequency, which holds for the achieved accuracy. The frequencies and splittings for the modes with low spherical degrees l, together with the MDI group results for higher degrees l, are used to invert the radial profile of solar angular velocity. Using the SOLA method to solve the inverse problem of restoring the rotation profile has yielded solutions sensitive to the deepest stellar interiors. Our results indicate that the solar core rotates faster than the surface, and there may be a local minimum in angular velocity at its boundary. 相似文献
19.
详细分析了一次太阳低层大气磁场重联触发的喷流事件.这次喷流发生在2014年8月1日,爆发自美国国家海洋和大气管理局(National Oceanic and Atmospheric Administration, NOAA)活动区12127边缘的一个卫星黑子处.该喷流爆发包括日浪、紫外喷流、极紫外高温和低温喷流.大熊湖太阳天文台(Big Bear Solar Observatory,BBSO)的Goode Solar Telescope (GST)高分辨率氧化钛(TiO)谱线的光球观测显示,喷流爆发过程中,卫星黑子一直衰减.到喷流结束,卫星黑子面积共减少了80%.在此过程中,太阳动力学天文台(Solar Dynamics Observatory, SDO)日球磁场成像仪(Helioseismic and Magnetic Imager, HMI)的视向磁场观测表明,该卫星黑子对应的负极磁场与相邻的正极磁场发生明显对消,产生喷流足部亮点.根据SDO卫星太阳大气成像仪(Atmospheric Imaging Assembly, AIA)的多波段观测,该足部亮点首先出现在紫外1600?波段.待紫外(1600?)喷流从紫外足部亮点顶部向上喷发,在极紫外波段也观测到相应的亮源.随着足点源亮度突然增强,有明显的极紫外低温喷流和日浪从足部亮点侧面喷发.从GST的高分辨率Hα图像上,可见日浪由许多精细纤维组成,这些纤维扎根在足点源的东南侧.根据从光球层过色球层再到日冕层的多波段高分辨率观测,色球中下层的磁场对消触发了这次喷流事件.向上喷发的物质流可以携带能量进入上层大气,并加热上层大气.研究结果表明,低层大气磁重联可能对解决日冕加热问题起重要作用. 相似文献