超短激光诱导核反应：引发氦核衰变和随后的聚变反应

arXiv - PHYS - Optics Pub Date : 2024-09-12 DOI:arxiv-2409.08186

L. M. Kovachev, E. Iordanova, G. Yankov, I. P. Angelov

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引用次数: 0

摘要

我们提出了一种利用高功率飞秒激光脉冲构建针对光原子和原子核的粒子加速器的新方法。首先，由于纵向极化力的作用，我们在激光脉冲包络线内对光原子进行了细化，使它们获得了数 GeV 的动能。随后，外部电场在阴极分离了原子核，将氦核集中在一个小区域内。1.88 GeV 撞击的动能超过α粒子结合能（28 MeV）两个数量级，在衰变过程中产生强大的伽马射线和中子辐射。该实验首次展示了激光诱导氦核衰变的方法。此外，被困在阴极上的氦同位素或氘核的库仑反作用力大大降低，从而使随后的核聚变反应和大量核能量释放成为可能。

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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Ultrashort laser-induced nuclear reactions: initiating decay of helium nuclei and subsequent fusion reactions

We present a novel method to construct particle accelerators targeting light atoms and nuclei using high-power femtosecond laser pulses. Initially, we confine light atoms within the laser pulse envelope due to longitudinal polarization forces, allowing them to acquire kinetic energies of several GeV. Subsequently, an external electric field separates the nuclei at the cathode, concentrating helium nuclei in a small area. The kinetic energy of the 1.88 GeV impacts, exceeding the alpha particle binding energy (28 MeV) by two orders of magnitude, induces powerful gamma radiation and neutron emission from decay processes. This experiment marks a demonstration of a laser-induced decay method for helium nuclei for the first time. Moreover, helium isotopes or deuterium nuclei trapped on the cathode show significantly reduced Coulomb repulsion, enabling subsequent nuclear fusion reactions and substantial nuclear energy release.

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arXiv - PHYS - Optics

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