Deuteron-deuteron fusion in laser-driven counter-streaming collisionless plasmas

Xiaopeng Zhang; Jiarui Zhao; Dawei Yuan; Changbo Fu; Jie Bao; Liming Chen; Jianjun He; Long Hou; Liang Li; Yanfei Li; Yutong Li; Guoqian Liao; Yongjoo Rhee; Yang Sun; Shiwei Xu; Gang Zhao; Baojun Zhu; Jianqiang Zhu; Zhe Zhang; Jie Zhang

doi:10.1103/PhysRevC.96.055801

Deuteron-deuteron fusion in laser-driven counter-streaming collisionless plasmas

Xiaopeng Zhang
, Jiarui Zhao
, Dawei Yuan
, Changbo Fu
, Jie Bao
, Liming Chen
, Jianjun He
, Long Hou
, Liang Li
, Yanfei Li
, Yutong Li
, Guoqian Liao
, Yongjoo Rhee
, Yang Sun
, Shiwei Xu
, Gang Zhao
, Baojun Zhu
, Jianqiang Zhu
, Zhe Zhang
, Jie Zhang

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

Nuclear fusion reactions are the most important processes in nature to power stars and produce new elements, and lie at the center of the understanding of nucleosynthesis in the universe. It is critically important to study the reactions in full plasma environments that are close to true astrophysical conditions. By using laser-driven counter-streaming collisionless plasmas, the fusion d+d→3He+n is studied in a Gamow-like window around 27 keV. The results give hints that astrophysical nuclear reaction yields can be modulated significantly by the self-generated electromagnetic fields and the collective motion of the plasma. This plasma-version minicollider may provide a novel tool for studies of astrophysics-interested nuclear reactions, as well as a useful tool to constrain the models of plasma colliding dynamic.

源语言	英语
文章编号	055801
期刊	Physical Review C
卷	96
期	5
DOI	https://doi.org/10.1103/PhysRevC.96.055801
出版状态	已出版 - 1 11月 2017
已对外发布	是

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title = "Deuteron-deuteron fusion in laser-driven counter-streaming collisionless plasmas",

abstract = "Nuclear fusion reactions are the most important processes in nature to power stars and produce new elements, and lie at the center of the understanding of nucleosynthesis in the universe. It is critically important to study the reactions in full plasma environments that are close to true astrophysical conditions. By using laser-driven counter-streaming collisionless plasmas, the fusion d+d→3He+n is studied in a Gamow-like window around 27 keV. The results give hints that astrophysical nuclear reaction yields can be modulated significantly by the self-generated electromagnetic fields and the collective motion of the plasma. This plasma-version minicollider may provide a novel tool for studies of astrophysics-interested nuclear reactions, as well as a useful tool to constrain the models of plasma colliding dynamic.",

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doi = "10.1103/PhysRevC.96.055801",

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T1 - Deuteron-deuteron fusion in laser-driven counter-streaming collisionless plasmas

AU - Zhang, Xiaopeng

AU - Zhao, Jiarui

AU - Yuan, Dawei

AU - Fu, Changbo

AU - Bao, Jie

AU - Chen, Liming

AU - He, Jianjun

AU - Hou, Long

AU - Li, Liang

AU - Li, Yanfei

AU - Li, Yutong

AU - Liao, Guoqian

AU - Rhee, Yongjoo

AU - Sun, Yang

AU - Xu, Shiwei

AU - Zhao, Gang

AU - Zhu, Baojun

AU - Zhu, Jianqiang

AU - Zhang, Zhe

AU - Zhang, Jie

PY - 2017/11/1

Y1 - 2017/11/1

N2 - Nuclear fusion reactions are the most important processes in nature to power stars and produce new elements, and lie at the center of the understanding of nucleosynthesis in the universe. It is critically important to study the reactions in full plasma environments that are close to true astrophysical conditions. By using laser-driven counter-streaming collisionless plasmas, the fusion d+d→3He+n is studied in a Gamow-like window around 27 keV. The results give hints that astrophysical nuclear reaction yields can be modulated significantly by the self-generated electromagnetic fields and the collective motion of the plasma. This plasma-version minicollider may provide a novel tool for studies of astrophysics-interested nuclear reactions, as well as a useful tool to constrain the models of plasma colliding dynamic.

AB - Nuclear fusion reactions are the most important processes in nature to power stars and produce new elements, and lie at the center of the understanding of nucleosynthesis in the universe. It is critically important to study the reactions in full plasma environments that are close to true astrophysical conditions. By using laser-driven counter-streaming collisionless plasmas, the fusion d+d→3He+n is studied in a Gamow-like window around 27 keV. The results give hints that astrophysical nuclear reaction yields can be modulated significantly by the self-generated electromagnetic fields and the collective motion of the plasma. This plasma-version minicollider may provide a novel tool for studies of astrophysics-interested nuclear reactions, as well as a useful tool to constrain the models of plasma colliding dynamic.

UR - https://www.scopus.com/pages/publications/85033699594

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JO - Physical Review C

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Deuteron-deuteron fusion in laser-driven counter-streaming collisionless plasmas

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