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Time-domain analysis of sub-micron transit region GaAs Gunn diodes for use in Terahertz frequency multiplication chains

Time-domain analysis of sub-micron transit region GaAs Gunn diodes for use in Terahertz frequency multiplication chains
Time-domain analysis of sub-micron transit region GaAs Gunn diodes for use in Terahertz frequency multiplication chains

Simulated RF time-domain characteristics for advanced Gunn diodes with hot electron injection and sub-micron transit region lengths for use at frequencies over 100GHz are reported. The physical models used have been developed in SILVACO and are compared to measured results. The devices measured were originally fabricated to investigate the feasibility of GaAs Gunn diode oscillators capable of operating at D-band frequencies and ultimately intended for use in high power (multi-mW) Terahertz sources (∼0.6THz) when used in conjunction with novel Schottky diode frequency multiplier technology. The device models created using SILVACO are described and the DC and time-domain results presented. The simulations were used to determine the shortest transit region length capable of producing sustained oscillation. The operation of resonant disk second harmonic Gunn diode oscillators is also discussed and accurate electromagnetic models created using Ansoft High Frequency Structure Simulator presented. Novel methods for combining small-signal frequency-domain electromagnetic simulations with time-domain device simulations in order to account for the significant interactions between the diode and oscillator circuit are described.

Gunn diode, Millimetre-wave imaging, Millimetre-wave multiplier, Physical modelling, Security imaging, SILVACO, Transferred electron device
0277-786X
Amir, F.
d0df8cda-a304-405c-9ae8-1dba336ed424
Farrington, N.
ba8e905c-862b-4609-b0cc-9e27218de542
Mitchell, C.
0e48c936-a405-434d-818a-d83e382aa826
Missous, M.
98ca61fb-84c6-4ec9-9a91-3bfc2cd8dd78
Amir, F.
d0df8cda-a304-405c-9ae8-1dba336ed424
Farrington, N.
ba8e905c-862b-4609-b0cc-9e27218de542
Mitchell, C.
0e48c936-a405-434d-818a-d83e382aa826
Missous, M.
98ca61fb-84c6-4ec9-9a91-3bfc2cd8dd78

Amir, F., Farrington, N., Mitchell, C. and Missous, M. (2010) Time-domain analysis of sub-micron transit region GaAs Gunn diodes for use in Terahertz frequency multiplication chains. In Millimetre Wave and Terahertz Sensors and Technology III. vol. 7837 (doi:10.1117/12.864872).

Record type: Conference or Workshop Item (Paper)

Abstract

Simulated RF time-domain characteristics for advanced Gunn diodes with hot electron injection and sub-micron transit region lengths for use at frequencies over 100GHz are reported. The physical models used have been developed in SILVACO and are compared to measured results. The devices measured were originally fabricated to investigate the feasibility of GaAs Gunn diode oscillators capable of operating at D-band frequencies and ultimately intended for use in high power (multi-mW) Terahertz sources (∼0.6THz) when used in conjunction with novel Schottky diode frequency multiplier technology. The device models created using SILVACO are described and the DC and time-domain results presented. The simulations were used to determine the shortest transit region length capable of producing sustained oscillation. The operation of resonant disk second harmonic Gunn diode oscillators is also discussed and accurate electromagnetic models created using Ansoft High Frequency Structure Simulator presented. Novel methods for combining small-signal frequency-domain electromagnetic simulations with time-domain device simulations in order to account for the significant interactions between the diode and oscillator circuit are described.

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More information

Published date: 20 October 2010
Venue - Dates: Millimetre Wave and Terahertz Sensors and Technology III, , Toulouse, France, 2010-09-20 - 2010-09-21
Keywords: Gunn diode, Millimetre-wave imaging, Millimetre-wave multiplier, Physical modelling, Security imaging, SILVACO, Transferred electron device
Learn more about Zepler Institute for Photonics and Nanoelectronics research Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 493972
URI: http://eprints.soton.ac.uk/id/eprint/493972
DOI: doi:10.1117/12.864872
ISSN: 0277-786X
PURE UUID: 3263032d-ad3d-4dab-9171-c0735bf0882f
ORCID for C. Mitchell: ORCID iD orcid.org/0000-0001-9773-8842

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Date deposited: 17 Sep 2024 17:17
Last modified: 18 Sep 2024 01:46

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Contributors

Author: F. Amir
Author: N. Farrington
Author: C. Mitchell ORCID iD
Author: M. Missous

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