Can microbunch instability on solar flare accelerated electron beams account for bright broadband coherent synchrotron microwaves?

Kaufmann P; Raulin JP

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Can microbunch instability on solar flare accelerated electron beams account for bright broadband coherent synchrotron microwaves?

机译：太阳耀斑加速电子束的微束不稳定性能解释明亮的宽带相干同步加速器微波吗？

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The physical processes producing bright broadband coherent synchrotron radiation (CSR) bursts in laboratory accelerators are proposed to happen also in solar flares, bringing a plausible explanation to serious interpretation constraints raised by the discovery of a solar flare sub-mm-wave spectral emission component peaking in the terahertz (THz) range simultaneous to the well-known microwaves component. The THz component is due to incoherent synchrotron radiation (ISR) produced by a beam of ultrarelativistic electrons. Beam density perturbations, on a scale of the order of or smaller than the emitting wavelength, sets a microbunch instability producing the intense CSR at lower frequencies. Hard x-ray/gamma-ray emissions may include a significant synchrotron emission component from the same ISR spectrum, bringing a new possibility to explain the so called "solar flare electron number paradox." (c) 2006 American Institute of Physics.

机译：有人提出在太阳耀斑中也会发生在实验室加速器中产生明亮宽带相干同步辐射（CSR）突发的物理过程，从而为因太阳耀斑亚毫米波频谱发射分量峰值的发现而引起的严重解释限制提供了合理的解释。在太赫兹（THz）范围内与众所周知的微波分量同时发生。太赫兹分量是由于超相对论电子束产生的非相干同步加速器辐射（ISR）所致。光束密度扰动的大小等于或小于发射波长，会设置微束不稳定性，从而在较低频率下产生强烈的CSR。硬X射线/γ射线发射可能包含来自相同ISR光谱的重要同步加速器发射分量，这为解释所谓的“太阳耀斑电子数悖论”带来了新的可能性。（c）2006年美国物理研究所。

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《Physics of plasmas》 |2006年第7期|共4页
作者
Kaufmann P; Raulin JP;
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正文语种 eng
中图分类等离子体物理学;
关键词
HARD X-RAY; RADIATION; EMISSION; MILLIMETER; BURSTS; PLASMA; FLUX; GHZ;

机译：硬X射线;辐射;发射;毫米波;爆炸;等离子;通量;GHZ;

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1. Can microbunch instability on solar flare accelerated electron beams account for bright broadband coherent synchrotron microwaves? [J] . Kaufmann P, Raulin JP Physics of plasmas . 2006,第7期

机译：太阳耀斑加速电子束的微束不稳定性能解释明亮的宽带相干同步加速器微波吗？
2. Influence of magnetic turbulence on the propagation of accelerated electrons and hard X-ray brightness distribution in solar flares [J] . Charikov Yu. E., Shabalin A. N. Geomagnetism and aeronomy . 2015,第8Speca2期

机译：电磁湍流对太阳耀斑中加速电子的传播和硬X射线亮度分布的影响
3. Conditions for coherent-synchrotron-radiation-induced microbunching suppression in multibend beam transport or recirculation arcs [J] . C.-Y. Tsai, S. Di Mitri, D. Douglas, Physical Review. Accelerators and Beams . 2017,第2期

机译：多弯束传输或再循环电弧中相干同步辐射辐射引起的微束抑制的条件
4. Beam instability and microbunching due to coherent synchrotron radiation [C] . Heifets, S., Stupakov, . 2001

机译：相干同步辐射引起的光束不稳定性和微成束
5. Coherent Synchrotron Radiation Effect Mitigation Studies for High Brightness Beams/Accelerators [D] . Khan, Donish Zaman. 2020

机译：高亮度梁/加速器的相干同步辐射效应缓解研究
6. Bright broadband coherent fiber sources emitting strongly blue-shifted resonant dispersive wave pulses [O] . Haohua Tu, Jesper Lægsgaard, Rui Zhang, -1

机译：明亮的宽带相干光纤源发出强烈的蓝移谐振色散波脉冲
7. Can microbunch instability on solar flare accelerated electron beams account for bright broadband coherent synchrotron microwaves? [O] . Pierre Kaufmann, Jean-Pierre Raulin 2006

机译：在太阳耀斑加速电子束上的微观统计不稳定性是明亮的宽带相干同步的微波吗？
8. Much Ado about Microbunching: Coherent Bunching in High Brightness Electron Beams. [R] . Ratner, D. 2012

机译：关于微操作的很多因素：高亮度电子束中的相干聚束。

Can microbunch instability on solar flare accelerated electron beams account for bright broadband coherent synchrotron microwaves?

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