共查询到18条相似文献,搜索用时 109 毫秒
1.
《天文学报》2015,(2)
搜集了类星体3C 273在光学B波段近100 yr的数据,得出光变曲线,并在此基础上应用Period04软件对它的光变周期进行了分析.发现光变曲线中存在周期为T1=2.06 yr、T2=13.03 yr及T3=21.15 yr的3个光变周期,这与Fan等人的结论(3C 273的光学B波段存在2.0 yr、(13.65±0.20)yr及(22.5±2.0)yr的周期)基本上是一致的.然后用这3个周期再次拟合观测数据做一个周期反演,周期拟合曲线与观测数据的爆发周期规律基本一致,说明这3个周期是比较可靠的.并通过其长周期可以得出其中心黑洞质量为M=1.87×106M⊙,最后讨论了其中心黑洞质量以及3C 273产生这种周期的可能机制. 相似文献
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用WWZ变换分析类星体3C 345的光变周期 总被引:1,自引:0,他引:1
介绍了一种全新的基于小波分析原理的处理非等间隔数据的方法:加权小波Z变换(Weighted Wavelet Z-transform,WWZ).收集了类星体3C 345光学B波段100多年来较为完整的观测数据,获得了其长期光变曲线.利用WWZ变换对3C 345 B波段28 yr的光变数据进行分析,通过研究发现3C 345的光变曲线中包含有624~941 d、4.54~5.23 yr和9.59~11.51 yr的周期成分,并分析了它们随时间演化的情况.其中后两个周期成分属于稳定周期,而前一个周期成分波动比较大,可以推测它并不是一个稳定周期. 相似文献
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从文献中收集了类星体3C273射电、毫米、红外、光学、紫外和高能波段1963年至2006年的观测数据,获得各波段的长期光变曲线。用Jurkevich方法和离散相关函数(Discrete Correlation Function,DCF)方法分别研究了多波段的光变周期。研究结果表明:(1)3C273在所研究波段内的辐射流量都表现出周期性变化的特征;(2)用Jurkevich方法和离散相关函数方法分析得到的多波段变化周期的结果非常一致;(3)3C273在射电和毫米波段可能存在8.0年左右的固有周期成分,在红外、光学和紫外波段可能存在2.0年和11.0年左右的固有周期成分,在高能波段可能存在1.0年左右的固有周期成分。简要探讨了引起3C273各波段周期光变的可能原因,研究结果表明用激波加速模型(shock-in-jet)能较好地解释引起3C273多波段光变的原因。 相似文献
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从SMARTS (The Small and Moderate Aperture Research Telescope System)数据库,收集到了平谱射电类星体(FRSQ) 0208-512天体光学波段B、 V、 R的观测数据,数据从2008年2月–2017年8月,时间跨度近10 yr.分别获得了光学B波段数据627组、V波段数据634组、 R波段数据639组.通过加权小波Z变换法(WWZ)和蒙特卡洛模拟的LombScargle periodogram (LSP)方法研究得出了如下结论:(1)在两种方法中都得到了光学B、V、R 3个波段有可能存在396 d左右约为1.08 yr的周期性光变;(2)得到了B波段星等B与光学波段色指数(B-V)呈正相关关系,当B星等越小时色指数(B-V)越小,即越亮越蓝;(3)通过光学3个波段的1.08 yr的长周期光变得到天体中心黑洞质量M约为0.12×106M⊙,辐射区半径RM=1.052×108km,其中M⊙为太阳质量. 相似文献
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光变是Blazar最显著的观测特征之一,有的光变呈准周期性. Blazar周期光变可能为其中心黑洞和吸积盘等内部物理结构提供重要信息.因此,周期分析对于讨论Blazar的光变有重要意义.结合经验模态分解(Empirical Mode Decomposition, EMD)和自回归(Auto-regressive, AR)模型谱估计方法的优点,提出了一种基于EMD-AR谱的组合光变周期分析新方法.先对观测数据进行EMD分解,得到各阶模态分量,并计算其与原始光变曲线的相关系数,再取相关度高的分量求和后估算AR谱,最后将此功率谱的周期分析方法用于天体的光变数据分析.讨论了EMD-AR谱方法的原理和应用步骤,并用此方法对类星体3C 273在1887—2016年的观测数据进行了分析,得到3C 273的长时标周期分别为:21.23、13.51、11.02、5.51、4.69、3.79、2.76 yr,与文献中常用方法的分析结果有很好的一致性;短时标周期分别为:(30±1)、(15±0.3)、(7.5±0.2)、(10±0.1)、(5±0.6)、(6±0.4)和(3±0.5) min,此结果未见相关... 相似文献
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给出了4种分析类星体长周期光变的方法,用一个模拟的周期信号y=sinθ检验这4种分析方法,结果表明:(1)天体光变采样的数据点个数相对少到一定值时,Jurkevich方法、时间补偿离散傅里叶变换分析方法(DCDFT)、离散相关分析方法(DCF)和功率谱密度分析方法(PSD)的分析结果不一样,获取最短的连续数据点后,Jurkevich方法分析结果在4种方法中可能最为精确可靠,且计算方法简捷实用;(2)获得了Jurkevich分析方法的最佳参数,当m=9时分析结果最佳;(3)用m=9时的Jurkevich方法分析了类星体3C 279及3C 454.3的光变周期,得出3C 279的可能光变周期为(2.81±0.54)年,3C 454.3的可能光变周期为457 d。 相似文献
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Based on the light curves at 4.8, 8.0 and 14.5 GHz of Quasar 1156+295 from the University of Michigan Radio Astronomy Observatory, we analyze the variability property of total flux at the three radio bands during the time range from 1980 to 2012. With the structure function (SF) analysis we find a similar evolution trend with the characteristic variability timescale of 1.15±0.05 year for all the three radio bands, and a possible quasi-periodic variability period of ~2.3±0.1 year. The Lomb-Scargle periodogram (LSP) analysis implies the existence of multiple periods in the radio light curves, one of them with a period similar to the one found using the SF at around 2.3 year. The structure function analysis of pre- and post-1997 suggests that the characteristic timescales become longer since 1997, confirmed by the result of Lomb-Scargle periodogram and auto-correlation function. In addition, the cross correlation analysis confirms that there is a strong correlation of flux variations at the three radio frequencies with the 14.5 GHz variation leading the other two bands by about 60–120 days. 相似文献
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《天文和天体物理学研究(英文版)》2014,(8)
PKS 2155-304 is a well studied BL Lac object in the southern sky. The historical optical data during different periods have been collected and compiled. Light curves spanning 35 yr have been constructed. The R-band light curve has been analyzed by means of three methods: the epoch folding method,the Jurkevich method and the discrete correlation function method. It is derived that there is an evident periodic component of 317 d(i.e. 0.87 yr) superposed on a long-term trend with largeamplitude variation in the light curve. The variability of this source is accompanied by a slight color variation,and the brightness and color index are correlated with each other. On a long-term time scale,PKS 2155-304 exhibits a tendency of bluer-whenbrighter,which means the spectrum becomes flatter when the source brightens. 相似文献
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Jiang-he Yang Jun-hui Fan Yi Liu Yong-xiang Wang Ru-shu Yang 《Chinese Astronomy and Astrophysics》2008,32(2):129-139
Optical photometric observations at the I and R wavebands were carried out towards Mkn501 using the 1.56 meter optical telescope of Shanghai Astronomical Observatory at Sheshan. Combining our new observations with the published historical data, we have obtained the light curves of Mkn501 at the optical, infrared and radio wavebands with a time coverage of nearly 80 years. The relationship between the light variability and the color index is discussed, it is found that a strong correlation exists between the color indices (B − V) and (B − R), with the correlation coefficient reaching r = 0.73. The correlations of multi-band light variabilities are analyzed by the DCF method, it is found that certain positive correlations of B-band light variability with the 4.8 GHz and infrared light variabilities exist. And the spectral analysis on the B-band light curve with the CLEANest method indicates that the light curve of Mkn501 contains probably two periodical components of (10.06 ± 0.04) yr and (21.60 ± 0.17) yr. 相似文献
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3C273的光学光变周期 总被引:3,自引:0,他引:3
收录了类星体3C273约110年的光学资料,并在此基础上讨论了光变周期性.当用两种不同方法(Jurkevich方法及DCF(离散相关系数)法)分析时,发现光变曲线中存在周期为2.0年、(13.65±0.20)及(22.5±2.0)年的周期性.同时也讨论了这种周期的可能机制. 相似文献
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We observed Mrk 421 in V and R band using the 1.0 m telescope at Weihai Observatory of Shandong University since 2009 April to 2012 May. The available historical data in B and V band were also assembled for constructing light curves. The brightness of Mrk 421 ranges from 11.40 to 16.14 in the B band light curve, and from 11.38 to 14.56 in the V band. Analyses with the Jurkevich method and the structure function method showed a possible period of about 1.36 years for its long periodic variability. This period could be explained by a close binary black hole system (BBHS) model with a primary black hole mass of 1.70×108 M ⊙ and a secondary ~(0.49–2.9)×107 M ⊙. We showed the color variability of Mrk 421, a bluer when brighter behavior during its lower state. Analyses of spectral index variations show that only a host galaxy contribution is not sufficient to explain the spectral index variations in Mrk 421, and some intrinsic mechanism is needed. 相似文献
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Recent observations provide strong evidence for the BL Lac object OJ287 exhibiting a 11.6±0.5 yr periodicity with a double-peaked
maxima in its optical flux variations. Several models have been proposed for the optical behavior. The 2005 November outburst
in OJ287 gives us a surprising result since calculation based on the periodicity was predicting such an outburst in late 2006.
Here we suggest a new model, it can not only explain the optical quasi-periodic behavior, but also the radio flares behavior
which is and simultaneous with the optical flares. We propose that OJ287 is a binary pair of super-massive black holes, both
of them creating a jet. The quasi-periodic double peaks would be due to the relativistic beaming effect on the emission coming
from the double helix jets. We used “core flares” to explain the large lags between light curves at different frequencies,
and the assumption of two jets appear to be merged with each other partly in the radio frequency emitting regions provides
a viable interpretation that we can see only a broad maximum which contains two radio flares that we cannot distinguish. 相似文献
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A. K. H. Kong P. A. Charles L. Homer E. Kuulkers D. O'Donoghue 《Monthly notices of the Royal Astronomical Society》2006,368(2):781-795
We report on the results of the first simultaneous X-ray ( RXTE ) and optical [South African Astronomical Observatory (SAAO)] observations of the luminous low-mass X-ray binary (LMXB) GX 9+9 in 1999 August. The high-speed optical photometry revealed an orbital period of 4.1958 h and confirmed previous observations, but with greater precision. No X-ray modulation was found at the orbital period. On shorter time-scales, a possible 1.4-h variability was found in the optical light curves which might be related to the MHz quasi-periodic oscillations seen in other LMXBs. We do not find any significant X-ray/optical correlation in the light curves. In X-rays, the colour–colour and hardness-intensity diagrams indicate that the source shows characteristics of an atoll source in the upper banana state, with a correlation between intensity and spectral hardness. Time-resolved X-ray spectroscopy suggests that two-component spectral models give a reasonable fit to the X-ray emission. Such models consist of a blackbody component which can be interpreted as the emission from an optically thick accretion disc or an optically thick boundary layer, and a hard Comptonized component for an extended corona. 相似文献