V. V. Kocharovsky, V. V. Vdovin, A. S. Gavrilov, E. R. Kocharovskaya, S. V. Logvinenko, E. M. Loskutov, V. M. Malofeev
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引用次数: 0
摘要
摘要 我们针对射电脉冲星特有的准周期动态频谱信号开发了周期主成分方法。该方法基于对许多脉冲星自转周期平均信号频率-时间相关矩阵的特征向量和特征值的分析。以普希诺射电天文台射电望远镜在 2.5 兆赫波段 111 兆赫附近对 PSR B0329\(+\)54 的观测为例,我们发现即使数据间隔很短(几分钟),所开发的方法也能识别脉冲星的多达九个脉冲分量,估算它们之间的相关性,并找到每个分量的法拉第调制周期及其相对相位和频率-时间啁啾率,也就是说、它可以判断发射源的结构。
The Method of Periodic Principal Components for the Dynamic Spectrum of Radio Pulsars and Faraday Rotation of Nine Pulse Components of PSR B0329+54
We have developed the method of periodic principal components for signals with a quasi-periodic dynamic spectrum characteristic of radio pulsars. The method is based on an analysis of the eigenvectors and eigenvalues of the signal frequency–time correlation matrix averaged over many pulsar rotation periods. Using the observations of PSR B0329\(+\)54 with the radio telescope at Pushchino Radio Astronomy Observatory near a frequency of 111 MHz in a 2.5 MHz band as an example, we show that even for short data intervals (a few minutes) the developed method allows one to identify up to nine pulse components of the pulsar, to estimate the correlation between them, and to find the period of Faraday modulation for each component as well as its relative phase and frequency–time chirp rate, i.e., it allows the structure of the emission source to be judged.
期刊介绍:
Astronomy Letters is an international peer reviewed journal that publishes the results of original research on all aspects of modern astronomy and astrophysics including high energy astrophysics, cosmology, space astronomy, theoretical astrophysics, radio astronomy, extragalactic astronomy, stellar astronomy, and investigation of the Solar system.
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