使用CF4/Ar高密度感应耦合等离子体(ICP)对磁控溅射法制得的铌酸锌铋(BZN)薄膜进行了干法刻蚀工艺研究.分析了BZN薄膜的刻蚀速率随工艺气体流量比、总流量和工作压强的改变而出现极大值的原因,展示了BZN薄膜的刻蚀速率随ICP功率的增大而线性增加的趋势.研究结果表明,使用CF4/Ar感应耦合等离子体对BZN薄膜进行刻蚀的机理为物理辅助的化学反应刻蚀.BZN薄膜的最佳刻蚀工艺参数为CF4/Ar流量比3/2、总流量25sccm、工作压强1.33Pa、ICP功率800W,使用此参数对BZN薄膜进行刻蚀,最大刻蚀速率为26nm/min,刻蚀后薄膜边缘齐整、表面光滑、形状完整.
参考文献
| [1] | Ren W.;Randall CA.;Shrout TR.;Trolier-McKinstry S. .Bismuth zinc niobate pyrochlore dielectric thin films for capacitive applications[J].Journal of Applied Physics,2001(1):767-774. |
| [2] | Lu Jiwei;Susanne Stemmer .Low-loss,tumble bismuth zinc niobate films deposited by rf magnetron sputtering[J].Applied Physics Letters,2003,83(12):2411. |
| [3] | Composition control and dielectric properties of bismuth zinc niobate thin films synthesized by radio-frequency magnetron sputtering[J].Journal of Vacuum Science & Technology, A. Vacuum, Surfaces, and Films,2003(5):1745-1751. |
| [4] | Y.C. Leec Y.P. Hong;D.M. Kim;K.H. Ko .Very high tunable inter-digital capacitor using bismuth zinc niobate thin-film dielectrics for microwave applications[J].Electronics Letters,2006(15):851-853. |
| [5] | Jaehoon Park;Jiwei Lu;Susanne Stemmer;Robert A. York .Microwave dielectric properties of tunable capacitors employing bismuth zinc niobate thin films[J].Journal of Applied Physics,2005(8):084110-1-084110-4-0. |
| [6] | Titanium-Substituted <formula formulatype="inline"> <img src="/images/tex/18042.gif" alt="\hbox {Bi}_{1.5}\hbox {Zn}_{1.0} \hbox {Nb}_{1.5}\hbox {O}_{7}"> </formula> for High-Density and Low-Temperature-Coefficient-of-Capacitance MIM Capacitor by Low-Temperature Process (300 <fo[J].IEEE Electron Device Letters,2010(5):473. |
| [7] | Jaehoon Park;Lu J.W.;Boesch D.S.;Stemmer S.;York R.A. .Distributed phase shifter with pyrochlore bismuth zinc niobate thin films[J].IEEE microwave and wireless components letters: A publication of the IEEE Microwave Theory and Techniques Society,2006(5):264-266. |
| [8] | S. J. Wang;S. Miao;I. M. Reaney;M. O. Lai;L. Lu .Enhanced tunable and pyroelectric properties of Ba(Ti_(0.85)Sn_(0.15))O_(3) thin films with Bi_(1.5)Zn_(1.0)Nb_(1.5)O_(7) buffer layers[J].Applied physics letters,2010(8):082901-1-082901-3. |
| [9] | YongWoo Choi;Il-Doo Kim;Harry L. Tuller;Akintunde L. Akinwande .Low-Voltage Organic Transistors and Depletion-Load Inverters With High-K Pyrochlore BZN Gate Dielectric on Polymer Substrate[J].IEEE Transactions on Electron Devices,2005(12):2819-2824. |
| [10] | Wang, G.;Li, W.;Li, P.;Xie, X.;Zhang, G.;Jiang, J. .Cubic Pyrochlore Bismuth Zinc Niobate Thin Films for Antifuse Applications[J].IEEE Electron Device Letters,2012(1):92-94. |
| [11] | Jong-Hyun Park;Woo-Sung Lee;Nak-Jin Seong;Soon-Gil Yoon;Seung-Hyun Son;Hyung-Mi Chung;Jin-Suck Moon;Hyun-Joo Jin;Seung-Eun Lee;Jeong-Won Lee;Hyung-Dong Kang;Yeoul-Kyo Chung;Yong-Soo Oh .Bismuth-zinc-niobate embedded capacitors grown at room temperature for printed circuit board applications[J].Applied physics letters,2006(19):192902-1-192902-3-0. |
| [12] | Michael Quirk;Julian Serda;韩郑生;等,.半导体制造技术[M].北京:电子工业出版社,2004:404. |
| [13] | Stephen A Campbell;曾莹.微电子制造科学原理与工程技术[M].北京:电子工业出版社,2007:259. |
| [14] | C. Soyer;E. Cattan;D. Remiens .Electrical damage induced by reactive ion-beam etching of lead-zirconate-titanate thin films[J].Journal of Applied Physics,2005(11):114110-1-114110-7-0. |
| [15] | Study of damage reduction of (Ba_(0.6),Sr_(0.4))TiO_(3) thin films etched in Ar/CF_(4) plasmas[J].Journal of Vacuum Science & Technology, A. Vacuum, Surfaces, and Films,2003(4):1469-1474. |
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