Pages- Terahertz Imaging & Detection

Sunday, December 30, 2018

Abstract-Thermal Modeling of the GaN-based Gunn Diode at Terahertz Frequencies


Ying Wang,  Jinping Ao,  Shibin Liu,  Yue Hao,



https://www.mdpi.com/2076-3417/9/1/75

In this paper, a comprehensive evaluation of thermal behavior of the GaN vertical n+-n-n-n+ Gunn diode have been carried out through simulation method. We explore the complex effects of various parameters on the device thermal performance through a microscopic analysis of electron movements. These parameters include operation bias, doping level, and length of the active region. The increase of these parameters aggravates the self-heating effect and degrades the electron domains, which therefore reduces the overall performance output of the diode. However, appropriate increase of the doping level of active region makes the lattice heat distribute more uniformly and improves the device performance. For the first time, we propose the transition domain, which is in between the dipole domain and accumulation layer, and stands for the degradation of the electron domain. We have also demonstrated that dual domains occur in the device with longer active region length and higher doping level under EB (Energy balance) model, which enhances the harmonics component. Electric and thermal behaviors analysis of GaN vertical Gunn diode makes it possible to optimize the device.

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