Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer

Standard

Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer. / Galyamin, S.N.; Tyukhtin, A.V.; Vorobev, V.V.; Antipov, S.; Baturin, S.S.

Proceedings of the 5th International Particle Accelerator Conference (IPAC’14), Dresden, Germany. 2014. p. 1949-1951.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Harvard

Galyamin, SN , Tyukhtin, AV , Vorobev, VV, Antipov, S & Baturin, SS 2014, Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer. in Proceedings of the 5th International Particle Accelerator Conference (IPAC’14), Dresden, Germany. pp. 1949-1951. <http://www.jacow.org>

APA

Galyamin, S. N., Tyukhtin, A. V., Vorobev, V. V., Antipov, S., & Baturin, S. S. (2014). Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer. In Proceedings of the 5th International Particle Accelerator Conference (IPAC’14), Dresden, Germany (pp. 1949-1951) http://www.jacow.org

Vancouver

Galyamin SN , Tyukhtin AV , Vorobev VV, Antipov S, Baturin SS. Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer. In Proceedings of the 5th International Particle Accelerator Conference (IPAC’14), Dresden, Germany. 2014. p. 1949-1951

Author

Galyamin, S.N. ; Tyukhtin, A.V. ; Vorobev, V.V. ; Antipov, S. ; Baturin, S.S. / Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer. Proceedings of the 5th International Particle Accelerator Conference (IPAC’14), Dresden, Germany. 2014. pp. 1949-1951

BibTeX

@inproceedings{5bb8ec412eca458a9bf642d498b99b65,

title = "Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer",

abstract = "Electromagnetic waves with frequencies from 0.1 THz to 10 THz are of great importance for a number of scientific and practical applications. Different techniques are known allowing generating these frequencies. However, a current trend of physics and industry is to fill this gap with more powerful and efficient sources. For example, recent experi- ments have shown promising THz generation in dielectric loaded structures. Developing this area, we consider the THz emitting scheme where an ultrarelativistic charge exits the open end of a cylindrical waveguide with a dielectric layer and produces THz waves in a form of Cherenkov ra- diation. The end of the waveguide is supposed to be either orthogonal to the structure axis or skewed. To obtain THz frequencies from waveguides with centimeter or millimeter radii, we consider high order modes. We present typical field patterns (in the Fraunhofer zone) and show that the aperture of the vacuum channel gives, as a rule, the main contribution.",

author = "S.N. Galyamin and A.V. Tyukhtin and V.V. Vorobev and S. Antipov and S.S. Baturin",

year = "2014",

language = "English",

isbn = "9783954501328",

pages = "1949--1951",

booktitle = "Proceedings of the 5th International Particle Accelerator Conference (IPAC{\textquoteright}14), Dresden, Germany",

}

RIS

TY - GEN

T1 - Beam-Driven Terahertz Source Based on Open Ended Waveguide with a Dielectric Layer

AU - Galyamin, S.N.

AU - Tyukhtin, A.V.

AU - Vorobev, V.V.

AU - Antipov, S.

AU - Baturin, S.S.

PY - 2014

Y1 - 2014

N2 - Electromagnetic waves with frequencies from 0.1 THz to 10 THz are of great importance for a number of scientific and practical applications. Different techniques are known allowing generating these frequencies. However, a current trend of physics and industry is to fill this gap with more powerful and efficient sources. For example, recent experi- ments have shown promising THz generation in dielectric loaded structures. Developing this area, we consider the THz emitting scheme where an ultrarelativistic charge exits the open end of a cylindrical waveguide with a dielectric layer and produces THz waves in a form of Cherenkov ra- diation. The end of the waveguide is supposed to be either orthogonal to the structure axis or skewed. To obtain THz frequencies from waveguides with centimeter or millimeter radii, we consider high order modes. We present typical field patterns (in the Fraunhofer zone) and show that the aperture of the vacuum channel gives, as a rule, the main contribution.

AB - Electromagnetic waves with frequencies from 0.1 THz to 10 THz are of great importance for a number of scientific and practical applications. Different techniques are known allowing generating these frequencies. However, a current trend of physics and industry is to fill this gap with more powerful and efficient sources. For example, recent experi- ments have shown promising THz generation in dielectric loaded structures. Developing this area, we consider the THz emitting scheme where an ultrarelativistic charge exits the open end of a cylindrical waveguide with a dielectric layer and produces THz waves in a form of Cherenkov ra- diation. The end of the waveguide is supposed to be either orthogonal to the structure axis or skewed. To obtain THz frequencies from waveguides with centimeter or millimeter radii, we consider high order modes. We present typical field patterns (in the Fraunhofer zone) and show that the aperture of the vacuum channel gives, as a rule, the main contribution.

M3 - Conference contribution

SN - 9783954501328

SP - 1949

EP - 1951

BT - Proceedings of the 5th International Particle Accelerator Conference (IPAC’14), Dresden, Germany

ER -

ID: 7009970