HISTORY OF LOW-FREQUENCY RESEARCH OF PULSARS

Q4 Physics and Astronomy

Radio Physics and Radio Astronomy Pub Date : 2021-06-01 DOI:10.15407/rpra26.02.130

O. Ulyanov

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Abstract

Purpose: The main most pronounced events, which occurred in the initial period of the pulsars’ study at the decameter wavelength range, are presented. The example of the main scientific problems, which were formulated at the very beginning of pulsar research, shows how the emphasis and priorities of these studies have been changing over time, which tasks have finally been solved, and which are still waiting to be solved. It is shown how the ongoing modernization of the UTR-2 radio telescope have allowed to acquire new qualities in astrophysical research being made with this radio telescope and to identify new scientific directions. The example of the cited references shows how the pulsar research efforts in Ukraine have been developed and how they were integrated into the world astrophysical research of these unique objects. The purpose of this work is to show the relationship between the past and the present on the example of pulsars for longer than a semi-centennial period and to show how the scientific problems that were formulated in the past, and which could not be solved under the then-existing technical conditions, were solved by the subsequent generations of researchers. Design/methodology/approach: The methods of comparison and historical parallels show how the low-frequency studies of pulsars have been developed and evolved almost from their discovery until now. Findings: It is shown how quantitative transformations and technical development, as well as non-standard scientific approaches, unhackneyed thought and international cooperation allow to solve complex radio astronomical problems related to the low-frequency studies of pulsars. Conclusions: The paper provides a historical overview of more than half a century-long radio astronomical studies of pulsars, having been and still being made at the decameter band using the UTR-2 radio telescope. The “old” and current priorities in pulsar research are given, and it is shown how qualitatively the technical parameters of back end facility and computer performance have been changed in studying the coherent pulsar radio emission nature. Key words: aberration; frequency band; pulse; interpulse; dispersion measure; rotation measure; plasma; pulsar; radio telescope

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脉冲星低频研究的历史

目的:介绍在脉冲星研究初期在十米波长范围内发生的主要的最明显的事件。主要科学问题的例子是在脉冲星研究的最初阶段制定的，它显示了这些研究的重点和优先级是如何随着时间的推移而变化的，哪些任务最终得到了解决，哪些任务仍在等待解决。展示了正在进行的UTR-2射电望远镜现代化如何使用这台射电望远镜进行的天体物理研究获得了新的质量，并确定了新的科学方向。引用的参考文献的例子显示了乌克兰脉冲星研究工作是如何发展的，以及它们是如何融入对这些独特物体的世界天体物理学研究的。这项工作的目的是以脉冲星为例，说明过去和现在之间的关系，时间超过半个世纪，并说明过去制定的科学问题，在当时现有的技术条件下无法解决，是如何被后代的研究人员解决的。设计/方法/方法:比较和历史对比的方法显示了脉冲星低频研究几乎从发现到现在是如何发展和演变的。研究结果:展示了定量转换和技术发展，以及非标准的科学方法，不成熟的思想和国际合作如何解决与脉冲星低频研究相关的复杂射电天文学问题。结论:本文提供了半个多世纪以来脉冲星射电天文学研究的历史概况，这些研究已经并仍在使用UTR-2射电望远镜在十米波段进行。给出了脉冲星研究的“旧”和当前的重点，并说明了在研究相干脉冲星射电发射性质时，后端设备的技术参数和计算机性能是如何发生质的变化的。关键词:像差;频带;脉冲;脉冲间隔的;色散量;旋转测量;等离子体;脉冲星;射电望远镜

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