Monte Carlo Study of Gunn Oscillations in Geometrically Shaped Planar Gunn Diodes Based on Doped GaN: Influence of Geometry, Intervalley Energy, and Temperature

IF 3.2 2区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Electron Devices Pub Date : 2024-08-09 DOI:10.1109/TED.2024.3438114

Sergio García-Sánchez;Ignacio Íñiguez-de-la-Torre;Susana Pérez;Tomás González;Javier Mateos

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Abstract

An investigation into self-switching diodes based on highly doped GaN is conducted under direct current (dc) bias conditions. Different device geometries are explored under various lattice temperatures and polarization scenarios. Also, the impact of adopting an intervalley energy

$\varepsilon _{{1}-{2}} =0.9$

eV for this material is examined and compared with results obtained with the traditionally accepted value of 2.2 eV. For a rectangular channel configuration, simulations predict oscillation frequencies in excess of 200 GHz, much above the expected transit-time value, due to the fact that the Gunn domains are formed near the anode side of the channel. Conversely, structures with a V-shaped geometry are able to start the formation of the Gunn domain inside the channel, thus generating oscillations at much lower frequencies (tens of gigahertz). The key result is that the lower

$\varepsilon _{{1}-{2}}$

leads to smaller threshold voltage values (and also slightly smaller oscillation frequencies), particularly in diodes with short channels.

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基于掺杂氮化镓的几何形状平面贡恩二极管中贡恩振荡的蒙特卡罗研究：几何形状、间隔能量和温度的影响

在直流偏置条件下，对基于高掺杂氮化镓的自开关二极管进行了研究。在不同晶格温度和极化情况下，探讨了不同的器件几何结构。此外，还研究了采用间隙能 $varepsilon _{{1}-{2}} =0.9$ eV 对这种材料的影响，并将其与采用传统公认值 2.2 eV 得到的结果进行了比较。对于矩形沟道结构，模拟预测的振荡频率超过 200 GHz，远高于预期的传输时间值，这是因为贡域是在沟道的阳极侧附近形成的。相反，具有 V 形几何形状的结构能够在通道内部开始形成贡恩域，从而产生更低频率（数十兆赫）的振荡。关键的结果是，较低的＄\varepsilon _{{1}-{2}}＄会导致较小的阈值电压值（以及稍小的振荡频率），尤其是在具有短沟道的二极管中。

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来源期刊

IEEE Transactions on Electron Devices 工程技术-工程：电子与电气

CiteScore

5.80

自引率

16.10%

发文量

937

审稿时长

3.8 months

期刊介绍： IEEE Transactions on Electron Devices publishes original and significant contributions relating to the theory, modeling, design, performance and reliability of electron and ion integrated circuit devices and interconnects, involving insulators, metals, organic materials, micro-plasmas, semiconductors, quantum-effect structures, vacuum devices, and emerging materials with applications in bioelectronics, biomedical electronics, computation, communications, displays, microelectromechanics, imaging, micro-actuators, nanoelectronics, optoelectronics, photovoltaics, power ICs and micro-sensors. Tutorial and review papers on these subjects are also published and occasional special issues appear to present a collection of papers which treat particular areas in more depth and breadth.