The transience and persistence of high optical polarisation state in beamed radio quasars

IF 4.5 3区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Publications of the Astronomical Society of Australia Pub Date : 2023-01-15 DOI:10.1017/pasa.2023.3

K. Chand, Gopal-Krishna, A. Omar, H. Chand, P. Bisht

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Abstract

Abstract We examine the long-term stability (on decade-like timescales) of optical ‘high polarisation’ (HP) state with ${p_{opt}}$ ${> 3\%}$ , which commonly occurs in flat-spectrum (i.e., beamed) radio quasars (FSRQs) and is a prominent marker of blazar state. Using this clue, roughly a quarter of the FSRQ population has been reported to undergo HP $\leftrightarrow$ non-HP state transition on year-like timescales. This work examines the extent to which HP (i.e., blazar) state can endure in a FSRQ, despite these ‘frequent’ state transitions. This is the first attempt to verify, using purely opto-polarimetric data for a much enlarged sample of blazars, the recent curious finding that blazar state in individual quasars persists for at least a few decades, despite its changing/swinging observed fairly commonly on year-like timescales. The present analysis is based on a well-defined sample of 83 radio quasars, extracted from the opto-polarimetric survey RoboPol (2013–2017), for which old opto-polarimetric data taken prior to 1990 could be found in the literature. By a source-wise comparison of these two datasets of the same observable ( $p_{opt}$ ), we find that $\sim$ 90% of the 63 quasars found in blazar state in our RoboPol sample, were also observed to be in that state about three decades before. On the other hand, within the RoboPol survey itself, we find that roughly a quarter of the blazars in our sample migrated to the other polarisation state on year-like timescales, by crossing the customary $p_{opt}$ = 3% threshold. Evidently, these relatively frequent transitions (in either direction) do not curtail the propensity of a radio quasar to retain its blazar (i.e., HP) state for at least a few decades. The observed transitions/swings of polarisation state are probably manifestation of transient processes, like ejections of synchrotron plasma blobs (VLBI radio knots) from the active nucleus.

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射电类星体中高光偏振态的瞬态和持久性

摘要:我们用${p_{opt}}$${> 3\%}$研究了光学“高偏振”(HP)状态的长期稳定性(在十年时间尺度上)，这种状态通常发生在平光谱(即波束)射电类星体(FSRQs)中，是耀变体状态的重要标志。利用这一线索，据报道，大约四分之一的FSRQ人群在类似年的时间尺度上经历了HP $\leftrightarrow$非HP状态转变。这项工作考察了HP(即blazar)状态在FSRQ中可以忍受的程度，尽管存在这些“频繁”的状态转换。这是第一次尝试验证，使用纯粹的光学偏振数据，对一个大大扩大的耀变体样本，最近的奇怪发现，耀变体状态在单个类星体中至少持续了几十年，尽管它的变化/摆动在类似年的时间尺度上相当常见。目前的分析是基于一个定义明确的83个射电类星体样本，这些样本是从RoboPol(2013-2017)的光偏振调查中提取的，其中1990年之前的旧光偏振数据可以在文献中找到。通过对这两个相同可观测数据集($p_{opt}$)的源比较，我们发现$\sim$ 90% of the 63 quasars found in blazar state in our RoboPol sample, were also observed to be in that state about three decades before. On the other hand, within the RoboPol survey itself, we find that roughly a quarter of the blazars in our sample migrated to the other polarisation state on year-like timescales, by crossing the customary $p_{opt}$ = 3% threshold. Evidently, these relatively frequent transitions (in either direction) do not curtail the propensity of a radio quasar to retain its blazar (i.e., HP) state for at least a few decades. The observed transitions/swings of polarisation state are probably manifestation of transient processes, like ejections of synchrotron plasma blobs (VLBI radio knots) from the active nucleus.

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来源期刊

Publications of the Astronomical Society of Australia 地学天文-天文与天体物理

CiteScore

5.90

自引率

9.50%

发文量

审稿时长

>12 weeks

期刊介绍： Publications of the Astronomical Society of Australia (PASA) publishes new and significant research in astronomy and astrophysics. PASA covers a wide range of topics within astronomy, including multi-wavelength observations, theoretical modelling, computational astronomy and visualisation. PASA also maintains its heritage of publishing results on southern hemisphere astronomy and on astronomy with Australian facilities. PASA publishes research papers, review papers and special series on topical issues, making use of expert international reviewers and an experienced Editorial Board. As an electronic-only journal, PASA publishes paper by paper, ensuring a rapid publication rate. There are no page charges. PASA''s Editorial Board approve a certain number of papers per year to be published Open Access without a publication fee.