AUTHOR=Liu Honghui , Liang Zhiwen , Wang Fengge , Xu Yanyan , Yang Xien , Liang Yisheng , Li Xin , Lin Lizhang , Wu Zhisheng , Liu Yang , Zhang Baijun TITLE=Analysis of electrical properties in lateral Schottky barrier diode based on n-GaN and AlGaN/GaN heterostructure JOURNAL=Frontiers in Physics VOLUME=10 YEAR=2022 URL=https://www.frontiersin.org/journals/physics/articles/10.3389/fphy.2022.1084214 DOI=10.3389/fphy.2022.1084214 ISSN=2296-424X ABSTRACT=

In this paper, the lateral Schottky barrier diodes (SBDs) with small capacitance and low turn-on voltage (V_on) were fabricated on n-GaN and AlGaN/GaN heterostructure. The capacitances of lateral n-GaN SBD and lateral AlGaN/GaN SBD are 1.35 pF/mm and 0.70 pF/mm, respectively. Compared with the planar SBDs, the capacitances of lateral SBDs are reduced by about two orders of magnitude without sacrificing the performance of on-resistance (R_on) and reverse leakage current. For the planar and lateral n-GaN SBDs, the value of the V_on is similar. However, compared with the planar AlGaN/GaN SBD, the V_on of lateral AlGaN/GaN SBD is reduced from 1.64 V to 0.87 V owing to the anode metal directly contacting the two-dimensional electron gas. According to temperature-dependent I-V results, the barrier inhomogeneity of the lateral SBD is more intensive than the planar SBD, which is attributed to etching damage. The withstand voltage of SBD is a very important parameter for power electronic applications. Compared with the breakdown voltage of 73 V in the lateral n-GaN SBD, the lateral AlGaN/GaN SBDs exhibit a breakdown voltage of 2322 V. In addition, we found that Schottky contact introduces anode resistance (R_A) by analysing the R_on distribution of lateral SBDs. The experimental results also show that the R_A of lateral n-GaN SBD and lateral AlGaN/GaN SBD are 10.5 Ω mm and 9.2 Ω mm respectively, which are much larger than the ohmic contact resistance due to worsening anode contact by metal-induced gap states.