The self-consistent nonlinear theory of charged particle beam acceleration by slowed circularly polarized electromagnetic waves

Lingbao Kong; Hongyu Wang; Zhiling Hou; Haibo Jin

doi:10.1088/1009-0630/15/12/02

The self-consistent nonlinear theory of charged particle beam acceleration by slowed circularly polarized electromagnetic waves

Lingbao Kong, Hongyu Wang^*, Zhiling Hou, Haibo Jin

^*Corresponding author for this work

School of Material Science and Engineering

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

The relativistic interaction of charged particle beams with a circularly polarized electromagnetic wave propagating along a uniform guiding magnetic field in the tunneling of a dielectric medium is analyzed. The acceleration mechanism and a self-consistent nonlinear theory are presented for the interaction of relativistic charged particle beams with electromagnetic waves. Numerical results show that the beam particle can be efficiently accelerated in the interaction process.

Original language	English
Pages (from-to)	1174-1177
Number of pages	4
Journal	Plasma Science and Technology
Volume	15
Issue number	12
DOIs	https://doi.org/10.1088/1009-0630/15/12/02
Publication status	Published - Dec 2013

Keywords

Charged particle acceleration
Guiding magnetic field
Selfconsistent nonlinear equation
Slowed circular electromagnetic wave

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10.1088/1009-0630/15/12/02

Cite this

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title = "The self-consistent nonlinear theory of charged particle beam acceleration by slowed circularly polarized electromagnetic waves",

abstract = "The relativistic interaction of charged particle beams with a circularly polarized electromagnetic wave propagating along a uniform guiding magnetic field in the tunneling of a dielectric medium is analyzed. The acceleration mechanism and a self-consistent nonlinear theory are presented for the interaction of relativistic charged particle beams with electromagnetic waves. Numerical results show that the beam particle can be efficiently accelerated in the interaction process.",

keywords = "Charged particle acceleration, Guiding magnetic field, Selfconsistent nonlinear equation, Slowed circular electromagnetic wave",

author = "Lingbao Kong and Hongyu Wang and Zhiling Hou and Haibo Jin",

year = "2013",

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T1 - The self-consistent nonlinear theory of charged particle beam acceleration by slowed circularly polarized electromagnetic waves

AU - Kong, Lingbao

AU - Wang, Hongyu

AU - Hou, Zhiling

AU - Jin, Haibo

PY - 2013/12

Y1 - 2013/12

N2 - The relativistic interaction of charged particle beams with a circularly polarized electromagnetic wave propagating along a uniform guiding magnetic field in the tunneling of a dielectric medium is analyzed. The acceleration mechanism and a self-consistent nonlinear theory are presented for the interaction of relativistic charged particle beams with electromagnetic waves. Numerical results show that the beam particle can be efficiently accelerated in the interaction process.

AB - The relativistic interaction of charged particle beams with a circularly polarized electromagnetic wave propagating along a uniform guiding magnetic field in the tunneling of a dielectric medium is analyzed. The acceleration mechanism and a self-consistent nonlinear theory are presented for the interaction of relativistic charged particle beams with electromagnetic waves. Numerical results show that the beam particle can be efficiently accelerated in the interaction process.

KW - Charged particle acceleration

KW - Guiding magnetic field

KW - Selfconsistent nonlinear equation

KW - Slowed circular electromagnetic wave

UR - http://www.scopus.com/inward/record.url?scp=84891883535&partnerID=8YFLogxK

U2 - 10.1088/1009-0630/15/12/02

DO - 10.1088/1009-0630/15/12/02

M3 - Article

AN - SCOPUS:84891883535

SN - 1009-0630

VL - 15

SP - 1174

EP - 1177

JO - Plasma Science and Technology

JF - Plasma Science and Technology

IS - 12

ER -

The self-consistent nonlinear theory of charged particle beam acceleration by slowed circularly polarized electromagnetic waves

Abstract

Keywords

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