Coaxial nanowire resonant tunneling diodes from non-polar AIN/GaN on silicon

S. D. Carnevale; C. Marginean; P. J. Phillips; T. F. Kent; A. T. M. G. Sarwar; M. J. Mills; R. C.Myers

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Coaxial nanowire resonant tunneling diodes from non-polar AIN/GaN on silicon

机译：来自硅上非极性AIN / GaN的同轴纳米线谐振隧穿二极管

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Resonant tunneling diodes are formed using AIN/GaN core-shell nanowire heterostructures grown by plasma assisted molecular beam epitaxy on n-Si(111) substrates. By using a coaxial geometry, these devices take advantage of non-polar (m-plane) nanowire sidewalls. Device modeling predicts non-polar orientation should enhance resonant tunneling compared to a polar structure, and that A1N double barriers will lead to higher peak-to-valley current ratios compared to AlGaN barriers. Electrical measurements of ensembles of nanowires show negative differential resistance appearing only at cryogenic temperature. Individual nanowire measurements show negative differential resistance at room temperature with peak current density of 5 × 10~5 A/cm~2.

机译：谐振隧穿二极管是通过在n-Si（111）衬底上通过等离子体辅助分子束外延生长的AIN / GaN核壳纳米线异质结构形成的。通过使用同轴几何形状，这些设备利用了非极性（m平面）纳米线侧壁。器件建模预测，与极性结构相比，非极性取向应增强共振隧穿，并且AlN双势垒将导致比AlGaN势垒更高的峰谷电流比。纳米线集合的电学测量显示负差动电阻仅在低温下出现。单独的纳米线测量结果显示，室温下的负差分电阻为5×10〜5 A / cm〜2的峰值电流密度。

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来源
《Applied Physics Letters》 |2012年第14期|p.142115.1-142115.4|共4页
作者
S. D. Carnevale; C. Marginean; P. J. Phillips; T. F. Kent; A. T. M. G. Sarwar; M. J. Mills; R. C.Myers;
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Department of Materials Science and Engineering, The Ohio State University, Columbus, Ohio 43210, USA;

Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA;

Department of Materials Science and Engineering, The Ohio State University, Columbus, Ohio 43210, USA;

Department of Materials Science and Engineering, The Ohio State University, Columbus, Ohio 43210, USA;

Department of Electrical and Computer Engineering, The Ohio State University, Columbus, Ohio 43210, USA;

Department of Materials Science and Engineering, The Ohio State University, Columbus, Ohio 43210, USA;

Department of Materials Science and Engineering, The Ohio State University, Columbus, Ohio 43210, USA,Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA,Department of Electrical and Computer Engineering, The Ohio State University, Columbus, Ohio 43210, USA;

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1. Coaxial nanowire resonant tunneling diodes from non-polar AlN/GaN on silicon [J] . Carnevale S. D. Applied Physics Letters . 2012,第14期

机译：硅上非极性AlN / GaN的同轴纳米线谐振隧穿二极管
2. 930 kA/cm~2 peak tunneling current density in GaN/AIN resonant tunneling diodes grown on MOCVD GaN-on-sapphire template [J] . Growden Tyler A., Cornuelle Evan M., Storm David F., Applied Physics Letters . 2019,第20期

机译：在MOCVD蓝宝石上的GaN模板上生长的GaN / AIN谐振隧穿二极管中的930 kA / cm〜2峰值隧穿电流密度
3. 930 kA/cm~2 peak tunneling current density in GaN/AIN resonant tunneling diodes grown on MOCVD GaN-on-sapphire template [J] . Growden Tyler A., Cornuelle Evan M., Storm David F., Applied Physics Letters . 2019,第20期

机译：930 ka / cm〜2峰隧道隧道隧道电流密度在Mocvd Gan-On-Sapphire模板上种植的甘克/ AIN共振隧道二极管
4. Quantum well width and barrier Thickness effects on the perpendicular transport in polar and non-polar oriented AlGaN/GaN Resonant Tunneling Diodes [C] . Nafaa Kacem, Amel Bhouri, Jean-Louis Lazzari, IEEE International Conference on Design and Test of Integrated Micro and Nano-Systems . 2021

机译：量子阱宽度和屏障厚度对极性和非极性的AlGaN / GaN共振隧道二极管垂直传输的影响
5. Phonon-assisted tunneling in silicon/silicon-germanium resonant interband tunnel diodes. [D] . Yu, Ronghua. 2007

机译：硅/硅锗共振带间隧道二极管中的声子辅助隧穿。
6. Hydrogen Generation using non-polar coaxial InGaN/GaN Multiple Quantum Well Structure Formed on Hollow n-GaN Nanowires [O] . Ji-Hyeon Park, Arjun Mandal, San Kang, -1

机译：使用在空心n-GaN纳米线上形成的非极性同轴InGaN / GaN多量子阱结构产生氢
7. Coaxial Nanowire Resonant Tunneling Diodes from non-polar AlN/GaN on Silicon [O] . Carnevale, S. D., Marginean, C., Phillips, P. J., 2012

机译：非极性alN / GaN上的同轴纳米线共振隧穿二极管硅

Coaxial nanowire resonant tunneling diodes from non-polar AIN/GaN on silicon

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