Defects evolution in n-type 4H-SiC induced by electron irradiation and annealing

IF 4.8 4区 物理与天体物理 Q2 PHYSICS, CONDENSED MATTER Journal of Semiconductors Pub Date : 2024-07-01 DOI:10.1088/1674-4926/23090024
Huifan Xiong, Xuesong Lu, Xu Gao, Yuchao Yan, Shuai Liu, Lihui Song, Deren Yang, X. Pi
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Abstract

Radiation damage produced in 4H-SiC by electrons of different doses is presented by using multiple characterization techniques. Raman spectra results indicate that SiC crystal structures are essentially impervious to 10 MeV electron irradiation with doses up to 3000 kGy. However, irradiation indeed leads to the generation of various defects, which are evaluated through photoluminescence (PL) and deep level transient spectroscopy (DLTS). The PL spectra feature a prominent broad band centered at 500 nm, accompanied by several smaller peaks ranging from 660 to 808 nm. The intensity of each PL peak demonstrates a linear correlation with the irradiation dose, indicating a proportional increase in defect concentration during irradiation. The DLTS spectra reveal several thermally unstable and stable defects that exhibit similarities at low irradiation doses. Notably, after irradiating at the higher dose of 1000 kGy, a new stable defect labeled as R 2 (Ec − 0.51 eV) appeared after annealing at 800 K. Furthermore, the impact of irradiation-induced defects on SiC junction barrier Schottky diodes is discussed. It is observed that high-dose electron irradiation converts SiC n-epilayers to semi-insulating layers. However, subjecting the samples to a temperature of only 800 K results in a significant reduction in resistance due to the annealing out of unstable defects.
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电子辐照和退火诱导的 n 型 4H-SiC 缺陷演化
通过使用多种表征技术,介绍了不同剂量的电子在 4H-SiC 中产生的辐射损伤。拉曼光谱结果表明,碳化硅晶体结构基本上不受剂量高达 3000 kGy 的 10 MeV 电子辐照的影响。然而,辐照确实会导致各种缺陷的产生,这些缺陷可通过光致发光(PL)和深层瞬态光谱(DLTS)进行评估。光致发光光谱的特点是以 500 纳米为中心有一个突出的宽带,同时伴有几个从 660 纳米到 808 纳米的较小峰值。每个聚光峰的强度与辐照剂量呈线性相关,表明在辐照过程中缺陷浓度成比例增加。DLTS 光谱揭示了几种热不稳定和稳定缺陷,它们在低辐照剂量下表现出相似性。值得注意的是,经过 1000 kGy 的高剂量辐照后,在 800 K 退火后出现了一个新的稳定缺陷,标记为 R 2(Ec - 0.51 eV)。研究发现,高剂量电子辐照会将碳化硅正外延层转化为半绝缘层。然而,将样品置于仅 800 K 的温度下,由于不稳定缺陷的退火,电阻会显著降低。
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来源期刊
Journal of Semiconductors
Journal of Semiconductors PHYSICS, CONDENSED MATTER-
CiteScore
6.70
自引率
9.80%
发文量
119
期刊介绍: Journal of Semiconductors publishes articles that emphasize semiconductor physics, materials, devices, circuits, and related technology.
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