共查询到18条相似文献,搜索用时 140 毫秒
1.
Blazar 3C 345的红移以及从射电到X射线波段的能谱等方面与伽玛射线源3C 279很相似,但是EGRET却没有探测到来自3C 345的辐射.从光变幅度(8GHz、22GHz,37GHz和B波段),光学最小光变时标和不同波段间的时间延迟3个方面,比较3C 345与伽玛射线源3C 279和3C 273的异同,寻找3C 345没有伽玛射线的可能原因.分析结果显示:光变幅度,在射电波段,3C 345与3C 279的更相似,在光学波段,3C 279、3C 345和3C 273依次递减并观测到了天量级的光变;还发现3C 345的时延要比3C 279长很多,而与3C 273相近.基于3C 345与3C 273的其他观测特征的相似性,如都观测到了大兰包,红外光度相当,那么3C 345的伽玛辐射能谱可能与3C 273相似,伽玛光度也相当.简单计算表明,若3C 273处于3C 345的红移处时,即使处在爆发态EGRET也探测不到3C 273,这可能正是EGRET从未探测到3C 345的原因. 相似文献
2.
从大量文献资料中收集了6个低峰频blazars(BL Lacertae、0235+164、OQ530、0716+714、3C 345及3C 273)最近30多年来在4.8 GHz、8 GHz、14.5 GHz、22GHz和37 GHz最完备的光变数据.利用离散相关函数法对这6个源的相关性及延迟进行分析,利用结构函数法对6个源的光变曲线的光变周期和光变时标进行分析并对其光变幅度进行比较分析.分析结果显示:在光变幅度方面,0716+714和0235+164在6个blazars中的光变幅度相对较大,3C 345和OQ 530次之,3C 273和BL Lacertae的光变幅度相对较小;多波段的延迟分析显示0235+164在相邻两波段之间都显示高频波段要超前于低频波段的变化趋势,3C 345整体呈现出高频波段滞后于低频波段的变化趋势.其余blazars分析结果显示在部分射电波段之间呈现出高频波段要超前于低频波段的变化趋势,而在其余射电波段之间却呈现出高频波段滞后于低频波段的变化趋势;结构函数法的分析结果显示3C 345的光变时标、拟合斜率及光变周期与其它5个低峰频blazars相比都偏大,这表明3C 345的活动性与其它5个源相比较弱,这表明在3C 345内部可能存在与其它5个低峰频blazars不同的物理过程. 相似文献
3.
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
4.
OJ 287是存在着剧烈活动的低峰频BL Lac天体,其低频段的能谱与另两个TeV BL Lac天体(0716+714和BL Lacertae)在低频段的能谱很相似,但是切仑科夫望远镜却没能探测到它的TeV射线.利用这3个天体的观测数据,比较它们在22 GHz、37 GHz和B波段的最小光变周期及延迟的异同,进一步寻找没有观测到OJ 287的TeV伽马射线的可能原因.分析结果显示:(1)最小光变周期方面,OJ 287在37 GHz和B波段的周期偏小,在22 GHz,OJ 287与0716+714的结果相当,但与BL Lacertae相比要小很多,OJ 287的周期更短表明其活动性更强,却没有探测到来自OJ 287的TeV伽马射线,这表明OJ 287在TeV波段的辐射与这3个低能波段最小光变周期之间可能没有联系;(2)延迟方面,OJ 287在B波段相对于37 GHz的延迟要长于0716+714,短于BL Lacertae;在37 GHz相对于22 GHz的延迟要短于0716+714,而BL Lacertae在37 GHz相对于22 GHz的时延为负值,表明22 GHz要超前于37 GHz.通过对延迟的比较分析,并没有发现OJ 287与0716+714和BL Lacertae之间存在明显的差异;从能谱来看,很可能是由于OJ 287在TeV波段的能谱较陡造成切仑科夫望远镜没有探测到来自OJ 287的伽马辐射,但TeV能段较陡的能谱对低能段光变的影响目前还不是很清楚. 相似文献
5.
《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
6.
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
7.
8.
研究了Blazar天体3C 66A光学波段的准周期光变行为.收集了3C 66A光学V波段将近18 yr (2003—2021年)的测光数据,观测数据主要来源是:上海天文台(ShAO)、 AAVSO (The American Association of Variable Star Observers)数据库、Steward天文台.使用了Jurkevich和Lomb-Scargle两种方法分析了光变数据.Jurkevich方法得到了(850±90) d (~2.3 yr)和(1150±140) d (~3.2 yr)的光变周期,而Lomb-Scargle方法在充分考虑了“红噪声”效应之后同样得到了(869±70) d和(1111±90) d的光变周期,它们的置信水平分别为>99%和> 95%.通过与之前的研究结果比较,发现~2.3 yr的光变周期在3C 66A的历史光变数据中是一个稳定的周期,而~3.2 yr的周期则是不稳定的. 相似文献
9.
本文利用两种周期分析方法(Jurkevich方法和功率谱方法)分析了赛弗特星系3C120五个射电波段的光变曲线(4.8,8,14.5,22和37 GHz)。结果发现了一个大约为4.2a(年)的周期共同存在于5个波段的光变曲线中。这个周期可能能用双黑洞模型来解释。 相似文献
10.
类星体有剧烈、大幅度的光变现象, 光变研究有助于建立与观测相符的理论模型. 这篇文章从密歇根大学射电天文台数据库收集了类星体3C 446射电4.8、8.0和14.5GHz波段的长期观测数据. 传统的线性方法难以分析复杂的光变现象, 文章采用了集合经验模态分解(Ensemble Empirical Mode Decomposition, EEMD)方法和非线性分析方法相结合, 从混沌动力学特性、分形特性和周期性多角度对类星体光变随时间演化的规律进行了较全面的分析, 并重点对比分析了除去周期成分或混沌成分前后, 光变的周期性和非线性特性是否存在明显区别. 分析结果表明, 类星体3C 446射电波段光变资料由周期成分、趋势成分和混沌成分组成, 光变具有周期性、混沌性和分形特性. 除去混沌成分和趋势成分后的光变周期与原始光变资料的周期完全相同, 而两者的混沌和分形特性有明显不同. 从饱和关联维数来看, 重构动力学系统时, 除去周期成分和趋势成分后的光变资料比原始光变资料需要更多的独立参量, Kolmogorov熵值表明前者信息的损失率比后者大, 系统的混沌程度更高, 系统也更复杂, Hurst值表明后者自相似性和长程相关性比前者略强. 相似文献
11.
The blazar 3C 345 is quite similar to the γ-ray blazar 3C 279 in respect of redshift, spectral energy distribution from the radio to the X-ray wave band, and so on. However, it was not detected by EGRET. We compared the differences and similarities between 3C 345 and the γ-ray sources 3C 279 and 3C 273 in respect of variation amplitudes (in the 8 GHz, 22 GHz, 37 GHz and B band), the smallest variation time scales in the optical and the time lags between different bands to search possible reason for the lack of the γ-ray radiation in 3C 345. From our analyses it is found that the variation amplitudes in the radio band for 3C 345 and 3C 279 are quite similar; the variation amplitudes in the optical wave band gradually decrease in the order 3C 279, 3C 345 and 3C 273, and variations on the order of days are found in these three sources. It is also found that the time lag in 3C 345 is much longer than that in 3C 279 and is approximately the same as that in 3C 273. Based on the similarity of other observational properties between 3C 345 and 3C 273, such as the presence of the big blue bump and their comparable infrared luminosities, it is proposed that the spectral energy distribution and the luminosity in the γ-ray band for 3C 345 are similar to those for 3C 273. It is indicated by our simple calculations that if 3C 273 has a similar redshift to that of 3C 345, then even at the burst state, EGRET could not detect any radiations from 3C 273. This might be the reason why 3C 345 had never been detected by EGRET. 相似文献
12.
B. Mihov R. Bachev L. Slavcheva‐Mihova A. Strigachev E. Semkov G. Petrov 《Astronomische Nachrichten》2008,329(1):77-83
We present the results of the blazar 3C 345 monitoring in Johnson‐Cousins BVRI bands for the period 1996–2006. We have collected 29 V and 43 R data points for this period; the BI light curves contain a few measurements only. The accuracy of our photometry is not better than 0.03 mag in the VR bands. The total amplitude of the variability obtained from our data is 2.06 mag in the V and 2.25 mag in the R band. 3C 345 showed periods of flaring activity during 1998/99 and 2001: a maximum of the blazar brightness was detected in 2001 February – 15.345 mag in the V and 14.944 mag in the R band. We confirm that during brighter stages 3C 345 becomes redder; for higher fluxes the colour index seems to be less dependent on the magnitude. The intra‐night monitoring of 3C 345 in three consecutive nights in 2001 August revealed no significant intra‐night variability; 3C 345 did not show evident flux changes over timescales of weeks around the period of the intra‐night monitoring. This result supports the existing facts that intra‐night variability is correlated with rapid flux changes rather than with specific flux levels. (© 2008 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
13.
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
14.
Based on the light curves at 22 and 37 GHz from the Metsahovi monitoring pro-gram, we investigate the time lags between the two radio bands for 48 radio-loud AGNs. DCF and ZDCF analyses are applied to the data. Our results show that there is a strong correlation between the two radio frequencies for all the sources, with the variations in the light curvesat 37 GHz leading the ones at 22 GHz in general. There is no obvious differences between different sub-class AGNs as regards the time lag. In two sources, it was found that the bursts at the lower frequency lead the ones at the higher frequency. One possible explanation is that electron acceleration dominates the light curve until the radiation reaches the maximum. Some sources, such as 3C 273, 3C 279, 3C 345 and 3C 454.3, have good enough data, so we can calculate their lags burst-by-burst. Our calculations show that different outbursts have dif- ferent lags. Some bursts have positive lags, most of bursts have no clear lags, and a few have negative lags. This result means that different bursts are triggered by different mechanisms, and the interpretation for the result involves both an intrinsic and a geometric mechanism. The positive lags are well consistent with the shock model, and we use these lags to calculate the typical magnetic field strength of the radiating region. 相似文献
15.
Chulhee Kim 《Journal of Astrophysics and Astronomy》2001,22(4):283-292
We present the results from ROSAT observations of 3C273 in the soft X-ray band. The light variation of 3C273 was investigated
for three different energy bands of soft, medium, and hard. The maximum variability with a factor of 2 for 551 days was confirmed
at all three different bands. This appears to be a periodic variation within the period of roughly 6 months. However, the
short-term or micro variation was not so distinct and the light variation of each band did not show any correlation between
them. The hardness ratio for hard and soft bands shows irregular variation but there was no correlation between them. There
is no distinct variation of the photon index in the case of simple power law model fitting. For power law + free absorption
model fitting, the average photon index (Γ) is 2.08. 相似文献
16.
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
17.
The data of light variations of six blazars with low peak frequencies (i.e., BL Lacerta, 0235+164, OQ530, 0716+714, 3C 345, and 3C 273) at 4.8, 8, 14.5, 22 and 37 GHz in the recent thirty years have been collected from immense amount of literature. By using the method of discrete correlation function the correlations and delays of the light curves of these six sources at the 5 wavebands are analyzed. With the method of structural function, the periods and timescales of the light variations of these six sources are analyzed, and their amplitudes of light variations are compared and analyzed. As revealed by the result of analysis, among the six blazars the amplitudes of light variations of 0716+714 and 0235+164 are relatively large, and those of 3C 345 and OQ 530 are less. The amplitudes of light variations of 3C 273 and BL Lacertae are relatively smaller. As shown by the multi-waveband analysis of delays between two neighboring wavebands, 0235+164 exhibits the tendency of variation that the high-frequency wavebands precede the low-frequency wavebands. On the whole, 3C 345 exhibits the tendency that the high-frequency wavebands lag be-hind the low-frequency wavebands. The analyses of the other blazars show that in a part of radio wavebands there appears the tendency of variation that the high-frequency waveband leads the low-frequency waveband. Yet in the other radio wavebands there appears the tendency that the high-frequency waveband lags behind the low-frequency waveband. As revealed by the results of analyses with the method of structural function, the timescale, fitted slope, and period of light variations of 3C 345 are larger than those of the other five blazars with low peak frequencies. This demonstrates that the activity of 3C 345 is comparatively weaker than the other five sources, and implies that in the interior of 3C 345 there may exist some physical processes which are different from those of the other five blazars with low peak frequencies. 相似文献
18.
A. J. Lawson & I. M. MHardy 《Monthly notices of the Royal Astronomical Society》1998,300(4):1023-1026
We present the results of a three-week daily monitoring campaign of the quasar 3C 279 by the X-ray satellites RXTE ROSAT . A cross-correlation provides no evidence for any time lag between the very similar soft and hard X-ray light curves, and the source shows no significant spectral variability over the observing period. There is no evidence to support the presence of a soft excess, with a 99 per cent upper limit on any such component of 25 per cent of the total observed luminosity in the 0.1–2 keV band (<3 × 1038 W). This fraction (but not the luminosity) is significantly lower than that of the soft excess observed in 3C 273. 相似文献