Numerical simulations of a co-harmonic gyrotron

D. A. Constable; K. Ronald; W. He; A. D.R. Phelps; A. W. Cross; A. V. Savilov; V. L. Bratman; I. V. Bandurkin

doi:10.1088/0022-3727/45/6/065105

Numerical simulations of a co-harmonic gyrotron

D. A. Constable
, K. Ronald
, W. He
, A. D.R. Phelps
, A. W. Cross
, A. V. Savilov
, V. L. Bratman
, I. V. Bandurkin

UHI Inverness

Producción científica › revisión exhaustiva

11 Citas (Scopus)

Resumen

A co-harmonic gyrotron, operating simultaneously at the second and fourth harmonics of the electron cyclotron frequency, has been successfully modelled with the particle-in-cell code, Magic 3D. Results show excitation of the TE _2,2 and TE _4,3 waveguide modes, at frequencies of 37.5GHz and 75GHz, respectively, consistent with experimental measurements. The total predicted output power was 3kW. Lengthening of the cut-off output taper has demonstrated an improved confinement of the second harmonic signal, facilitating purer output of the fourth harmonic signal. In this enhanced configuration, the predicted output power of the second harmonic was 250W, while the fourth harmonic was 15W. The system demonstrates the potential for selective fourth harmonic generation, for starting currents which are two orders of magnitude lower than would be required for direct excitation.

Idioma original	English
Número de artículo	065105
Publicación	Journal of Physics D: Applied Physics
Volumen	45
N.º	6
DOI	https://doi.org/10.1088/0022-3727/45/6/065105
Estado	Published - 15 feb 2012

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abstract = "A co-harmonic gyrotron, operating simultaneously at the second and fourth harmonics of the electron cyclotron frequency, has been successfully modelled with the particle-in-cell code, Magic 3D. Results show excitation of the TE 2,2 and TE 4,3 waveguide modes, at frequencies of 37.5GHz and 75GHz, respectively, consistent with experimental measurements. The total predicted output power was 3kW. Lengthening of the cut-off output taper has demonstrated an improved confinement of the second harmonic signal, facilitating purer output of the fourth harmonic signal. In this enhanced configuration, the predicted output power of the second harmonic was 250W, while the fourth harmonic was 15W. The system demonstrates the potential for selective fourth harmonic generation, for starting currents which are two orders of magnitude lower than would be required for direct excitation.",

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AU - Constable, D. A.

AU - Ronald, K.

AU - He, W.

AU - Phelps, A. D.R.

AU - Cross, A. W.

AU - Savilov, A. V.

AU - Bratman, V. L.

AU - Bandurkin, I. V.

PY - 2012/2/15

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N2 - A co-harmonic gyrotron, operating simultaneously at the second and fourth harmonics of the electron cyclotron frequency, has been successfully modelled with the particle-in-cell code, Magic 3D. Results show excitation of the TE 2,2 and TE 4,3 waveguide modes, at frequencies of 37.5GHz and 75GHz, respectively, consistent with experimental measurements. The total predicted output power was 3kW. Lengthening of the cut-off output taper has demonstrated an improved confinement of the second harmonic signal, facilitating purer output of the fourth harmonic signal. In this enhanced configuration, the predicted output power of the second harmonic was 250W, while the fourth harmonic was 15W. The system demonstrates the potential for selective fourth harmonic generation, for starting currents which are two orders of magnitude lower than would be required for direct excitation.

AB - A co-harmonic gyrotron, operating simultaneously at the second and fourth harmonics of the electron cyclotron frequency, has been successfully modelled with the particle-in-cell code, Magic 3D. Results show excitation of the TE 2,2 and TE 4,3 waveguide modes, at frequencies of 37.5GHz and 75GHz, respectively, consistent with experimental measurements. The total predicted output power was 3kW. Lengthening of the cut-off output taper has demonstrated an improved confinement of the second harmonic signal, facilitating purer output of the fourth harmonic signal. In this enhanced configuration, the predicted output power of the second harmonic was 250W, while the fourth harmonic was 15W. The system demonstrates the potential for selective fourth harmonic generation, for starting currents which are two orders of magnitude lower than would be required for direct excitation.

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Numerical simulations of a co-harmonic gyrotron

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