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Electron drift velocity in lattice-matched AlInN/AlN/GaN channel at high electric fields

机译：高电场下晶格匹配的AlInN / AlN / GaN沟道中的电子漂移速度

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Hot-electron transport was probed by nanosecond-pulsed measurements for a nominally undoped two-dimensional channel confined in a nearly lattice-matched Al0.82In0.18N/AlN/GaN structure at room temperature. The electric field was applied parallel to the interface, the pulsed technique enabled minimization of Joule heating. No current saturation was reached at fields up to 180 kV/cm. The effect of the channel length on the current is considered. The electron drift velocity is deduced under the assumption of uniform electric field and field-independent electron density. The highest estimated drift velocity reaches ∼3.2×107 cm/s when the AlN spacer thickness is 1 nm. At high fields, a weak (if any) dependence of the drift velocity on the spacer thickness is found in the range from 1 to 2 nm. The measured drift velocity is low for heterostructures with thinner spacers (0.3 nm).

机译：在室温下，通过纳秒脉冲测量来探测名义上无掺杂的二维沟道并限制在几乎晶格匹配的Al0.82In0.18N / AlN / GaN结构中的热电子传输。平行于界面施加电场，脉冲技术使焦耳热最小化。在高达180 kV / cm的电场下未达到电流饱和。考虑通道长度对电流的影响。在均匀电场和与场无关的电子密度的假设下推导电子漂移速度。当AlN隔离层厚度为1 nm时，最高的估计漂移速度达到〜3.2×107 cm / s。在高电场下，漂移速度对隔离层厚度的依赖性较小（如果有的话），范围为1至2 nm。对于具有较薄间隔物（0.3 nm）的异质结构，测得的漂移速度较低。

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Ardaravičius L.; Ramonas M.; Liberis J.; Kiprijanovič O.; Matulionis A.; Xie J.; Wu M.; Leach J. H.; Morkoç H.;
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1. Electron drift velocity in lattice-matched AlInN/AlN/GaN channel at high electric fields [J] . L. Ardaravicius, M. Ramonas, J. Liberis, Journal of Applied Physics . 2009 ,第7期

机译：高电场下晶格匹配的AlInN / AlN / GaN沟道中的电子漂移速度
2. High electron mobility and low sheet resistance in lattice-matched AlInN/AlN/GaN/AlN/GaN double-channel heterostructure [J] . S. Zhang, M. C. Li, Z. H. Feng, Applied Physicsletters . 2009 ,第21期

机译：晶格匹配的AlInN / AlN / GaN / AlN / GaN双通道异质结构中的高电子迁移率和低薄层电阻
3. Effect of thin gate dielectrics on DC, radio frequency and linearity characteristics of lattice-matched AlInN/AlN/GaN metal–oxide–semiconductor high electron mobility transistor [J] . Kanjalochan Jena, Raghunandan Swain, Trupti Ranjan Lenka Circuits, Devices & Systems, IET . 2016 ,第5期

机译：薄栅介质对晶格匹配的AlInN / AlN / GaN金属氧化物半导体高电子迁移率晶体管的直流，射频和线性特性的影响
4. Energy Relaxation of Hot Electrons in Lattice-matched AlInN/AlN/GaN Heterostructures [C] . J.-Z. Zhang, A. Dyson, B. K. Ridley ICPS 2012 . 2013

机译：晶格匹配alinn / Aln / GaN异质结构中热电子的能量松弛
5. ELECTRON DRIFT VELOCITIES AT HIGH ELECTRIC FIELDS IN GALLIUM-ARSENIDE AND INDIUM-GALLIUM - ARSENIDE. [D] . WINDHORN, THOMAS HUGO. 1982

机译：砷化镓和砷化铟镓中高电场下的电子漂移速度。
6. Direct Measurement of Polarization-Induced Fields in GaN/AlN by Nano-Beam Electron Diffraction [O] . Daniel Carvalho, Knut Müller-Caspary, Marco Schowalter, -1

机译：纳米束电子衍射直接测量GaN / AlN中的极化感应场
7. High electron mobility in nearly lattice-matched AlInN∕AlN∕GaN heterostructure field effect transistors [O] . Xie Jinqiao, Ni Xianfeng, Wu Mo, 2007

机译：几乎晶格匹配的AlInN ∕ AlN ∕ GaN异质结构场效应晶体管中的高电子迁移率

Electron drift velocity in lattice-matched AlInN/AlN/GaN channel at high electric fields

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