Quasi-optical high purity HE11-mode exciter for oversized corrugated waveguide transmission

Masatsugu Sakaguchi; Hiroshi Idei; Shin Kubo; Tetsuji Saito; Takashi Shigematsu

doi:10.1585/pfr.7.2405037

Quasi-optical high purity HE₁₁-mode exciter for oversized corrugated waveguide transmission

Masatsugu Sakaguchi, Hiroshi Idei, Shin Kubo, Tetsuji Saito, Takashi Shigematsu

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

3 Citations (Scopus)

Abstract

Oversized corrugated waveguide transmissions are used to transmit high power millimeter wave for electron cyclotron heating in ITER. The HE11 mode purity of the waveguide components is a critical issue not only in the high power operation but also in the low power operation to evaluate the components. Conventional single Gaussian beam system causes edge diffraction and excites higher order modes at the waveguide aperture. A proposed HE₁₁-mode exciter uses beam interference between two Gaussian beams interference and serves the high purity HE11 mode without the edge diffraction. The HE11-mode exciter consists of a scalar feed horn antenna, quasi-optical mirrors and a beam splitter (combiner). Phase matched mirrors correct the Gaussian-like beam excited from the horn antenna to pure Gaussian beam. Authors report the experimental study of the exciter.

Original language	English
Article number	2405037
Journal	Plasma and Fusion Research
Volume	7
Issue number	SPL.ISS.1
DOIs	https://doi.org/10.1585/pfr.7.2405037
Publication status	Published - 2012

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1585/pfr.7.2405037

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abstract = "Oversized corrugated waveguide transmissions are used to transmit high power millimeter wave for electron cyclotron heating in ITER. The HE11 mode purity of the waveguide components is a critical issue not only in the high power operation but also in the low power operation to evaluate the components. Conventional single Gaussian beam system causes edge diffraction and excites higher order modes at the waveguide aperture. A proposed HE11-mode exciter uses beam interference between two Gaussian beams interference and serves the high purity HE11 mode without the edge diffraction. The HE11-mode exciter consists of a scalar feed horn antenna, quasi-optical mirrors and a beam splitter (combiner). Phase matched mirrors correct the Gaussian-like beam excited from the horn antenna to pure Gaussian beam. Authors report the experimental study of the exciter.",

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AU - Sakaguchi, Masatsugu

AU - Idei, Hiroshi

AU - Kubo, Shin

AU - Saito, Tetsuji

AU - Shigematsu, Takashi

PY - 2012

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AB - Oversized corrugated waveguide transmissions are used to transmit high power millimeter wave for electron cyclotron heating in ITER. The HE11 mode purity of the waveguide components is a critical issue not only in the high power operation but also in the low power operation to evaluate the components. Conventional single Gaussian beam system causes edge diffraction and excites higher order modes at the waveguide aperture. A proposed HE11-mode exciter uses beam interference between two Gaussian beams interference and serves the high purity HE11 mode without the edge diffraction. The HE11-mode exciter consists of a scalar feed horn antenna, quasi-optical mirrors and a beam splitter (combiner). Phase matched mirrors correct the Gaussian-like beam excited from the horn antenna to pure Gaussian beam. Authors report the experimental study of the exciter.

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Quasi-optical high purity HE₁₁-mode exciter for oversized corrugated waveguide transmission

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