超强场中电子峰的量子分裂

IF 4.8 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Bo Zhang, Zhi-Meng Zhang, Wei-Min Zhou
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引用次数: 0

摘要

用类似于多重韧致辐射理论的解析公式描述了在超强场中多重非线性康普顿散射对电子的影响。基于这些解析公式,确定了多重非线性康普顿散射的一种新的纯量子效应——量子峰分裂:当每个电子的平均非线性康普顿散射数超过5.1且小于9时,电子峰分裂为两个。量子分裂峰源于量子辐射反应的离散性,其中一个分裂峰由电子发射0 ~ 3次形成,另一个分裂峰由电子发射4次或4次以上形成。这一效应为电子峰的形成提供了一种新的机制,对未来的对撞机施加了新的束致辐射限制,并修正了量子辐射反应的图景。实验可以在强度为1021 W/cm2的激光上进行,这在PW-scale的设备上是可以达到的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantum splitting of electron peaks in ultra-strong fields
Effects of multiple nonlinear Compton scattering on electrons in ultra-strong fields are described using analytic formulas similar to those in the theory of multiple bremsstrahlung. Based on these analytic formulas, a new pure quantum effect of multiple nonlinear Compton scattering called quantum peak splitting is identified: the electron peak splits into two when the average number of nonlinear Compton scatterings per electron passes a threshold of 5.1 and is below 9. Quantum peak splitting stems from the discreteness of quantum radiation reaction, with one of the split peaks being formed by electrons emitting zero to three times and the other by electrons emitting four or more times. This effect provides a new mechanism for the formation of electron peaks, imposes a new beamstrahlung limit on future colliders, and corrects the picture of quantum radiation reaction. Experiments can be performed on lasers with intensities ≳1021 W/cm2, which are reachable on PW-scale facilities.
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来源期刊
Matter and Radiation at Extremes
Matter and Radiation at Extremes Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
8.60
自引率
9.80%
发文量
160
审稿时长
15 weeks
期刊介绍: Matter and Radiation at Extremes (MRE), is committed to the publication of original and impactful research and review papers that address extreme states of matter and radiation, and the associated science and technology that are employed to produce and diagnose these conditions in the laboratory. Drivers, targets and diagnostics are included along with related numerical simulation and computational methods. It aims to provide a peer-reviewed platform for the international physics community and promote worldwide dissemination of the latest and impactful research in related fields.
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