The inverse smith-purcell effect in the submillimeter wave region –theoretical analyses–

Jongsuck Bae; Kazuyuki Furuya; Hirokazu Shirai; Tatsuo Nozokido; Koji Mizuno

doi:10.1143/JJAP.27.408

The inverse smith-purcell effect in the submillimeter wave region –theoretical analyses–

Jongsuck Bae, Kazuyuki Furuya, Hirokazu Shirai, Tatsuo Nozokido, Koji Mizuno

Electric and Electronic Engineering

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

10 Scopus citations

Abstract

The inverse Smith-Purcell effect is theoretically investigated in the submillimeter wave region for planning experiments. The effect in which coherent light waves interact with charged particles resonantly through a diffraction grating is one of the candidates for laser-driven linacs. The optimum grating dimensions with a rectangular groove profile are designed by analyzing the fields just in front of the grating surface. The energy spreads of the electrons resulting from interactions with the laser field were evaluated by computer simulations. It can be seen from the simulations that a laser power of 1 W can produce ∼ 30 eV increase in the electron energy spectrum.

Original language	English
Pages (from-to)	408-412
Number of pages	5
Journal	Japanese Journal of Applied Physics
Volume	27
Issue number	3R
DOIs	https://doi.org/10.1143/JJAP.27.408
State	Published - 1988/03

Keywords

Electron-energy spectrum
Experimental demonstration
Grating design
Grating linac
High-acceleration gradient
Inverse smith-purcell effect
Laser-driven linac
Sub millimeter wave laser
Theoretical analyses

ASJC Scopus subject areas

General Engineering
General Physics and Astronomy

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10.1143/JJAP.27.408

Cite this

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title = "The inverse smith-purcell effect in the submillimeter wave region –theoretical analyses–",

abstract = "The inverse Smith-Purcell effect is theoretically investigated in the submillimeter wave region for planning experiments. The effect in which coherent light waves interact with charged particles resonantly through a diffraction grating is one of the candidates for laser-driven linacs. The optimum grating dimensions with a rectangular groove profile are designed by analyzing the fields just in front of the grating surface. The energy spreads of the electrons resulting from interactions with the laser field were evaluated by computer simulations. It can be seen from the simulations that a laser power of 1 W can produce ∼ 30 eV increase in the electron energy spectrum.",

keywords = "Electron-energy spectrum, Experimental demonstration, Grating design, Grating linac, High-acceleration gradient, Inverse smith-purcell effect, Laser-driven linac, Sub millimeter wave laser, Theoretical analyses",

author = "Jongsuck Bae and Kazuyuki Furuya and Hirokazu Shirai and Tatsuo Nozokido and Koji Mizuno",

year = "1988",

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AU - Bae, Jongsuck

AU - Furuya, Kazuyuki

AU - Shirai, Hirokazu

AU - Nozokido, Tatsuo

AU - Mizuno, Koji

PY - 1988/3

Y1 - 1988/3

N2 - The inverse Smith-Purcell effect is theoretically investigated in the submillimeter wave region for planning experiments. The effect in which coherent light waves interact with charged particles resonantly through a diffraction grating is one of the candidates for laser-driven linacs. The optimum grating dimensions with a rectangular groove profile are designed by analyzing the fields just in front of the grating surface. The energy spreads of the electrons resulting from interactions with the laser field were evaluated by computer simulations. It can be seen from the simulations that a laser power of 1 W can produce ∼ 30 eV increase in the electron energy spectrum.

AB - The inverse Smith-Purcell effect is theoretically investigated in the submillimeter wave region for planning experiments. The effect in which coherent light waves interact with charged particles resonantly through a diffraction grating is one of the candidates for laser-driven linacs. The optimum grating dimensions with a rectangular groove profile are designed by analyzing the fields just in front of the grating surface. The energy spreads of the electrons resulting from interactions with the laser field were evaluated by computer simulations. It can be seen from the simulations that a laser power of 1 W can produce ∼ 30 eV increase in the electron energy spectrum.

KW - Electron-energy spectrum

KW - Experimental demonstration

KW - Grating design

KW - Grating linac

KW - High-acceleration gradient

KW - Inverse smith-purcell effect

KW - Laser-driven linac

KW - Sub millimeter wave laser

KW - Theoretical analyses

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DO - 10.1143/JJAP.27.408

M3 - 学術論文

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SN - 0021-4922

VL - 27

SP - 408

EP - 412

JO - Japanese Journal of Applied Physics

JF - Japanese Journal of Applied Physics

IS - 3R

ER -

The inverse smith-purcell effect in the submillimeter wave region –theoretical analyses–

Abstract

Keywords

ASJC Scopus subject areas

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