Modeling of thermal and non-thermal radio emission from HH80-81 jet

IF 1.1 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
Sreelekshmi Mohan, S. Vig, S. Mandal
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Abstract

Protostellar jets are one of the primary signposts of star formation. A handful of protostellar objects exhibit radio emission from ionized jets, of which a few display negative spectral indices, indicating the presence of synchrotron emission. In this study, we characterize the radio spectra of HH80-81 jet with the help of a numerical model that we have developed earlier, which takes into account both thermal free–free and non-thermal synchrotron emission mechanisms. For modeling the HH80-81 jet, we consider jet emission towards the central region close to the driving source along with two Herbig-Haro objects, HH80 and HH81. We have obtained the best-fit parameters for each of these sources by fitting the model to radio observational data corresponding to two frequency windows taken across two epochs. Considering an electron number density in the range of \(10^3\)\(10^5\) cm\(^{-3}\), we obtained the thickness of the jet edges and fraction of relativistic electrons that contribute to non-thermal emission in the range of \(0.01^{\circ }\)\(0.1^{\circ }\) and \(10^{-7}\)\(10^{-4}\), respectively. For the best-fit parameter sets, the model spectral indices lie in the range of − 0.15 to \(+\)0.11 within the observed frequency windows.

Abstract Image

HH80-81射流的热辐射和非热辐射建模
原恒星喷流是恒星形成的主要标志之一。少数原恒星物体表现出电离喷流的无线电发射,其中少数显示负光谱指数,表明同步加速器发射的存在。在这项研究中,我们利用我们之前开发的数值模型来表征HH80-81射流的射电光谱,该模型考虑了热自由-自由和非热同步辐射机制。为了对HH80-81射流进行建模,我们考虑了靠近驱动源的中心区域以及两个赫比格-哈罗天体HH80和HH81的射流发射。通过将模型拟合到对应于两个时期的两个频率窗口的无线电观测数据,我们获得了每个源的最佳拟合参数。考虑到电子数密度在\(10^3\) - \(10^5\) cm \(^{-3}\)范围内,我们分别得到了射流边缘的厚度和在\(0.01^{\circ }\) - \(0.1^{\circ }\)和\(10^{-7}\) - \(10^{-4}\)范围内参与非热辐射的相对论性电子的比例。对于最佳拟合参数集,在观测到的频率窗内,模型谱指数在−0.15 ~ \(+\) 0.11范围内。
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来源期刊
Journal of Astrophysics and Astronomy
Journal of Astrophysics and Astronomy 地学天文-天文与天体物理
CiteScore
1.80
自引率
9.10%
发文量
84
审稿时长
>12 weeks
期刊介绍: The journal publishes original research papers on all aspects of astrophysics and astronomy, including instrumentation, laboratory astrophysics, and cosmology. Critical reviews of topical fields are also published. Articles submitted as letters will be considered.
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