Using optical lines to study particle acceleration at supernova remnants

Nuclear physics. B, Proceedings, supplements Pub Date : 2014-11-01 DOI:10.1016/j.nuclphysbps.2014.10.006

Giovanni Morlino

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引用次数: 4

Abstract

The shocks of several young supernova remnants (SNR) are often associated with very thin optical filaments dominated by Balmer emission resulting from charge-exchange and collisional excitation between neutral Hydrogen from the interstellar medium and shocked protons and electrons. Optical lines are a direct probe of the conditions at the shock, in particular the width of the narrow and broad components reflect the temperature upstream and downstream of the shock, respectively. When the shock accelerate efficiently non-thermal particles, the shock structure changes producing anomalous Balmer lines and it is possible to use their line shape and their spatial profile to check the efficiency of SNR shocks in accelerating cosmic rays. Here we illustrate the kinetic theory of shock acceleration in presence of neutrals with some applications to young SNRs. We show that in three cases (RCW 86, SNR 0509-67.5 and Tycho) anomalous Balmer lines can be explained assuming that a fraction of ∼ 10% of the total shock kinetic energy is converted into not thermal particles, while in one single case, the northwestern part of SN 1006, there is no evidence of efficient acceleration.

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利用光谱线研究超新星残骸中的粒子加速

一些年轻超新星残余物(SNR)的激波通常与非常薄的光学细丝有关，这些细丝主要是由来自星际介质的中性氢与激波中的质子和电子之间的电荷交换和碰撞激发而产生的巴尔默发射。光学线路是激波处条件的直接探头，特别是窄组件和宽组件的宽度分别反映了激波上游和下游的温度。当激波有效加速非热粒子时，激波结构发生变化，产生异常的巴尔默线，可以利用其线形和空间剖面来检验信噪比激波在加速宇宙射线中的效率。在这里，我们说明了激波加速度的动力学理论与一些应用的存在中性的年轻信噪比。我们发现，在三个情况下(RCW 86, SNR 0509-67.5和Tycho)，假设总激波动能的一小部分- 10%被转化为非热粒子，可以解释巴尔默线异常，而在一个单一的情况下，SN 1006的西北部，没有有效加速的证据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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