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Studies on high power THz radiation using nanosecond pulse in oversized relativistic backward wave oscillator

Studies on high power THz radiation using nanosecond pulse in oversized relativistic backward wave oscillator
Studies on high power THz radiation using nanosecond pulse in oversized relativistic backward wave oscillator
IRMMW-THz 2011 - 36th International Conference on Infrared, Millimeter, and Terahertz Waves Houston TX 2-7 Oct To design high power oversized Relativistic Backward Wave Oscillator (RBWO) which can generate GW-level Power in THz frequency, numerical studies such as finite difference time domain (FDTD) and particle in cell (PIC) were performed. 0.1GW at 0.1THz was estimated. The Oversized BWO which means relatively wide cross-section space (oversized) to decrease power density comparing with fundamental BWO is made up of slow wave structure (SWS) of rectangular type wall radius designed to generate wave on surface with strong interaction between electron beam and wave under intense fields at 500 kV-1.5kA, 100ns pulse in the relativistic range. In the meantime, the type of THz EM waves radiated antenna is COaxial Beam Rotating Antenna (COBRA). The antenna lens is designed to be matched with the W-band frequency and the thickness of lens is decided by theoretically calculation and results of numerical methods. On the basis of the results from numerical studies, it is designed and fabricated to generate radiated 0.1GW-0.1THz for 30ns, electromagnetic wave on the range of millimeter wave through these studies.
Min, S.H.
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Kwon, O.J.
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Sattorov, M.A.
6ac0b2e2-8c7f-4e59-a4eb-5f94ba2c581f
So, Jinkyu
06a7afea-61c2-439d-9ac4-047ea21a909b
Park, S.H.
ac249aee-611d-4ab1-a69f-b053af8029c6
Baek, I.K.
cb340681-cbe8-409c-b46e-07953285e072
Choi, D.H.
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Shin, Y.M.
e6bcac14-fdf3-4655-b0bd-ecb37f5c69f3
Park, G.S.
d85a0342-6ee9-40e0-9798-9d456927f04a
Min, S.H.
295f7359-3192-4118-8ff7-41d54b740cb9
Kwon, O.J.
2e77471f-4da3-4a7f-8c3c-e60ebd1b9cbb
Sattorov, M.A.
6ac0b2e2-8c7f-4e59-a4eb-5f94ba2c581f
So, Jinkyu
06a7afea-61c2-439d-9ac4-047ea21a909b
Park, S.H.
ac249aee-611d-4ab1-a69f-b053af8029c6
Baek, I.K.
cb340681-cbe8-409c-b46e-07953285e072
Choi, D.H.
50a0f3a4-ba1f-46d8-90cf-478141f9af2c
Shin, Y.M.
e6bcac14-fdf3-4655-b0bd-ecb37f5c69f3
Park, G.S.
d85a0342-6ee9-40e0-9798-9d456927f04a

Min, S.H., Kwon, O.J., Sattorov, M.A., So, Jinkyu, Park, S.H., Baek, I.K., Choi, D.H., Shin, Y.M. and Park, G.S. (2011) Studies on high power THz radiation using nanosecond pulse in oversized relativistic backward wave oscillator. 2 pp . (doi:10.1109/irmmw-THz.2011.6105229).

Record type: Conference or Workshop Item (Paper)

Abstract

IRMMW-THz 2011 - 36th International Conference on Infrared, Millimeter, and Terahertz Waves Houston TX 2-7 Oct To design high power oversized Relativistic Backward Wave Oscillator (RBWO) which can generate GW-level Power in THz frequency, numerical studies such as finite difference time domain (FDTD) and particle in cell (PIC) were performed. 0.1GW at 0.1THz was estimated. The Oversized BWO which means relatively wide cross-section space (oversized) to decrease power density comparing with fundamental BWO is made up of slow wave structure (SWS) of rectangular type wall radius designed to generate wave on surface with strong interaction between electron beam and wave under intense fields at 500 kV-1.5kA, 100ns pulse in the relativistic range. In the meantime, the type of THz EM waves radiated antenna is COaxial Beam Rotating Antenna (COBRA). The antenna lens is designed to be matched with the W-band frequency and the thickness of lens is decided by theoretically calculation and results of numerical methods. On the basis of the results from numerical studies, it is designed and fabricated to generate radiated 0.1GW-0.1THz for 30ns, electromagnetic wave on the range of millimeter wave through these studies.

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Published date: 2 October 2011

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Local EPrints ID: 442978
URI: http://eprints.soton.ac.uk/id/eprint/442978
PURE UUID: 4b9efe10-fea8-446a-8115-c21e8ae59f31

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Date deposited: 05 Aug 2020 16:30
Last modified: 16 Mar 2024 08:52

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Contributors

Author: S.H. Min
Author: O.J. Kwon
Author: M.A. Sattorov
Author: Jinkyu So
Author: S.H. Park
Author: I.K. Baek
Author: D.H. Choi
Author: Y.M. Shin
Author: G.S. Park

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