具有梯度势垒层的AlGaN/GaN异质结构肖特基势垒二极管

IF 1.5 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

Advances in Condensed Matter Physics Pub Date : 2022-04-06 DOI:10.1155/2022/5885992

Honghui Liu, Z. Liang, C. Yan, Yuebo Liu, Fengge Wang, Yanyan Xu, Junyu Shen, Z. Xiao, Zhisheng Wu, Yang Liu, Qi Wang, Xinqiang Wang, Baijun Zhang

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引用次数: 0

摘要

AlGaN/GaN肖特基势垒二极管(sdd)作为大功率混频器和乘法器，由于其高击穿电压，在毫米波(MMW)领域显示出巨大的潜力。然而，由于二维电子气(2DEG)通道在低电压下难以被掐断，其反向泄漏电流(Jr)大，严重限制了其进一步应用。为了解决这一限制，引入了梯度AlGaN/GaN异质结构，将2DEG通道扩展为准三维电子板。通过比较固定Al组成AlGaN/GaN SBD，分级AlGaN/GaN SBD的Jr由于通道载流子的扩展而显著降低，证实了该结构有效的Jr抑制效果。结果表明，采用气桥结构的梯度AlGaN/GaN sdd具有较低的Jr值(在-15 V时为1.6 × 10−13 a)，截止频率高达60.6 GHz。预计这种低Jr的sbd在未来的应用中具有显著的优势。

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AlGaN/GaN Heterostructure Schottky Barrier Diodes with Graded Barrier Layer

The AlGaN/GaN Schottky barrier diodes (SBDs) working as high-power mixer and multiplier show great potential in millimeter wave (MMW) field owing to their high breakdown voltage. Nevertheless, its further application is severely limited by large reverse leakage current (Jr) since the two-dimensional electron gas (2DEG) channel is hard to be pinched off at low voltage. To address this limitation, a graded AlGaN/GaN heterostructure is introduced to extend the 2DEG channel into a quasi-three-dimensional electron slab. By comparing the fixed Al composition AlGaN/GaN SBD, Jr of the graded AlGaN/GaN SBD is significantly reduced due to the extension of channel carriers, confirming the effective Jr suppression effect of this structure. Furthermore, on this basis, a recessed anode structure is utilized to expect a smaller Jr. The results indicated that the graded AlGaN/GaN SBDs with air-bridge structure have achieved a pretty low Jr value (1.6 × 10−13 A at -15 V), and its cutoff frequency is as high as 60.6 GHz. It is expected that such SBDs with low Jr have significant advantages in future applications.

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来源期刊

Advances in Condensed Matter Physics PHYSICS, CONDENSED MATTER-

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Advances in Condensed Matter Physics publishes articles on the experimental and theoretical study of the physics of materials in solid, liquid, amorphous, and exotic states. Papers consider the quantum, classical, and statistical mechanics of materials; their structure, dynamics, and phase transitions; and their magnetic, electronic, thermal, and optical properties. Submission of original research, and focused review articles, is welcomed from researchers from across the entire condensed matter physics community.