RIE刻蚀功率对$\beta-\text{Ga}_{2}\ maththrm {O}_{3}$薄膜刻蚀速率影响的实验研究

2022 International Symposium on Semiconductor Manufacturing (ISSM) Pub Date : 2022-12-12 DOI:10.1109/ISSM55802.2022.10027071

Wang Xu, Ran Jing Yang, Yang Lai, Yang Fa Shun, M. Kui

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引用次数: 0

摘要

$\beta-\text{Ga}_{2}\ maththrm {O}_{3}$材料作为超宽带隙半导体材料中的一员，近年来受到半导体领域研究者的广泛关注。蚀刻工艺是实现基于$\beta-\text{Ga}_{2}\ maththrm {O}_{3}$材料的半导体器件和集成电路的关键。基于硅基半导体技术中常用的反应离子刻蚀工艺，对$\beta-\text{Ga}_{2}\ maththrm {O}_{3}$薄膜进行了刻蚀实验研究。基于感应耦合反应离子刻蚀，用SF6刻蚀$\beta-\text{Ga}_{2}\ maththrm {O}_{3}\text{film}$。研究了RIE刻蚀功率、激发功率和偏置功率对$\beta-\text{Ga}_{2}\ maththrm {O}_{3}$薄膜刻蚀速率的影响。SEM表征结果表明，在600W激励功率下，刻蚀速率最高。腐蚀速率随偏置功率的增大而增大。在200W偏置功率下的蚀刻速率略高于150W偏置功率下的蚀刻速率。然而，用作蚀刻掩模的光刻胶在200W偏置功率下会被损坏。

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Experimentally Study on the Effect of RIE Etching Power on Etching Rate of $\beta-\text{Ga}_{2}\mathrm{O}_{3}$ Thin Film

As a member of ultra-wide band gap semiconductor materials, $\beta-\text{Ga}_{2}\mathrm{O}_{3}$ materials have attracted wide attention from researchers in the semiconductor field in recent years. Etching process is crucial to realize semiconductor devices and integrated circuits based on $\beta-\text{Ga}_{2}\mathrm{O}_{3}$ materials. Based on the reaction ion etching process commonly used in silicon-based semiconductor technology, the etching experiment research of $\beta-\text{Ga}_{2}\mathrm{O}_{3}$ thin film is carried out. The $\beta-\text{Ga}_{2}\mathrm{O}_{3}\text{film}$ is etched with SF6, based on the induction coupled reaction ion etching. The effect of RIE etching power, excitation power and bias power, on etching rate of $\beta-\text{Ga}_{2}\mathrm{O}_{3}$ thin film has been studied. SEM characterization results show that the etching rate is the highest at 600W excitation power. The etching rate increases with the increase of bias power. The etching rate at 200W bias power is slightly higher than that at 150W bias power. However, the photoresist used as the etch mask will be damaged at 200W bias power.

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2022 International Symposium on Semiconductor Manufacturing (ISSM)

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