中国激光, 2012, 39 (9): 0906001, 网络出版: 2012-07-17
掺镁铌酸锂晶体的ICP刻蚀性能
Etching Characteristics of MgO Doped Lithium Niobate in Inductively Coupled Plasma
集成光学 光学器件 掺镁铌酸锂 微结构加工 感应耦合等离子体干法刻蚀 刻蚀速率 integrated optics optical devices MgO doped lithium niobate microstructure fabrication inductively coupled plasma dry etching etching rate
摘要
掺镁铌酸锂晶体(MgLiNbO3)是一种相对难刻蚀的晶体,MgLiNbO3的干法刻蚀速率和刻蚀形貌控制是铌酸锂光电子器件加工中的关键技术之一。采用牛津仪器公司的Plasmalab System 100以SF6/Ar为刻蚀气体,具体研究MgLiNbO3的刻蚀速率随着感应耦合等离子体(ICP)功率、反应离子刻蚀(RIE)功率、气室压强和气体流量配比等刻蚀参数的变化,同时研究发现SF6/(Ar+SF6)气体流量配比还会影响刻蚀表面的粗糙度。实验结果表明:在ICP功率为1000 W,RIE功率为150 W,标准状态(0 ℃,1个标准大气压)下气体总流量为52 mL/min,压强为0.532 Pa,SF6/(Ar+SF6)气体体积分数为0.077的条件下,刻蚀速率可达到152 nm/min,刻蚀表面粗糙度为1.37 nm,可获得刻蚀深度为2.5 μm,侧壁角度为74.8°的表面平整脊形MgLiNbO3结构。
Abstract
MgO doped lithium niobate (MgLiNbO3) is a relatively hard crystal and is difficult for dry etching. Dry etching rate and morphology control of MgLiNbO3 are key technologies in fabricating optoelectronic devices based on lithium niobate. Etching characteristics of MgLiNbO3 crystal are studied by using Plasmalab System 100 (Oxford Instruments) with mixture gases of SF6/Ar. The etching rates of different working parameters including inductively coupled plasma (ICP) power, reactive ion etching (RIE) power, working pressure and SF6/Ar flow ratio are evaluated. The surface profile is also affected by various ratios of SF6/Ar gas mixture. The optimal etching conditions for MgLiNbO3 ridge-shaped waveguide are found to be ICP power of 1000 W, RIE power of 150 W, total gas flux of 52 mL/min (standard condition of 0 ℃, 1 atm), chamber pressure of 0.532 Pa and the gas volume ratio of SF6/(Ar+SF6) of 0.077. Optical ridge-shaped waveguide with approximately 2.5 μm depth, 74.8° etching sidewalls and smooth top surface is successfully fabricated using the optimized etching conditions.
周钰杰, 冯力群, 孙军强. 掺镁铌酸锂晶体的ICP刻蚀性能[J]. 中国激光, 2012, 39(9): 0906001. Zhou Yujie, Feng Liqun, Sun Junqiang. Etching Characteristics of MgO Doped Lithium Niobate in Inductively Coupled Plasma[J]. Chinese Journal of Lasers, 2012, 39(9): 0906001.