Novel Thermal Management of Power Electronic Devices: High Power High Frequency Planar Gunn Diodes
Lead Research Organisation:
University of Aberdeen
Department Name: Physics
Abstract
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People |
ORCID iD |
G Dunn (Principal Investigator) |
Publications
G Dunn (Author)
(2013)
IEEE Transactions on Electron Devices
in NA
Glover J
(2015)
Micro-coolers fabricated as a component in an integrated circuit
in Semiconductor Science and Technology
Glover J
(2014)
On wafer thermal characterization of miniature gallium arsenide microcoolers with thermal loading from DC probes
in Microwave and Optical Technology Letters
Khalid A
(2013)
A 218-GHz second-harmonic multiquantum well GaAs-based planar Gunn diodes
in Microwave and Optical Technology Letters
Khalid A
(2014)
Terahertz oscillations in an In0.53Ga0.47As submicron planar Gunn diode
in Journal of Applied Physics
Khalid A
(2013)
$\hbox{In}_{0.53}\hbox{Ga}_{0.47}\hbox{As}$ Planar Gunn Diodes Operating at a Fundamental Frequency of 164 GHz
in IEEE Electron Device Letters
Li C
(2011)
Design, fabrication and characterization of In0.23Ga0.77As-channel planar Gunn diodes for millimeter wave applications
in Solid-State Electronics
Maricar M
(2014)
Design and characterization of a novel diamond resonator
in Microwave and Optical Technology Letters
Montes Bajo M
(2013)
Impact ionisation electroluminescence in planar GaAs-based heterostructure Gunn diodes: Spatial distribution and impact of doping non-uniformities
in Journal of Applied Physics
Montes M
(2012)
Reduction of Impact Ionization in GaAs-Based Planar Gunn Diodes by Anode Contact Design
in IEEE Transactions on Electron Devices
Description | Novel Thermal Management of Power Electronic Devices The work done in this grant has two principal research impacts: the improved understanding of Gunn device power management and the key importance of hetero-structure design in electro-thermal coolers. Gunn diodes are power hungry devices consuming large amounts of electrical energy and producing great amounts of heat energy. It is of key importance to understand the complex interplay between contact design, impact ionization and consequent electro-luminescence in these devices. Five journal publications have resulted from this work in which each of these key issues is explored in detail along with commensurate improvements in device frequency from these devices. With respect to the work on electro-thermal cooling technology, two journal publications detailing the crucial importance of the correct hetero-structure design highlight the importance of this issue in future development of such devices. The sensitivity to small alterations to the interface will have a direct impact on all workers attempting to fabricate these devices and will influence devices design and modelling. . Beneficiaries: Workers in this field |
Sector | Electronics |
Impact Types | Cultural |