硅薄膜在CF/sub - 4/母气中蚀刻的特性

2000 22nd International Conference on Microelectronics. Proceedings (Cat. No.00TH8400) Pub Date : 2000-05-14 DOI:10.1109/ICMEL.2000.840576

Y. Grigoryev, A. Gorobchuk

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引用次数: 3

摘要

讨论了径向流反应器传热传质的特点。研究了混合气体的流动结构、温度和反应物质浓度随气体流速和温度的变化规律。反应器的模拟结合了蚀刻腔中流体动力学和分子输运过程的建模。作者考虑了二组分、三组分和四组分化学动力学。电子密度分布符合“扩散为主”的放电。对计算数据的分析表明，气体温度的径向梯度明显，降低了晶圆的刻蚀均匀性。反应物质浓度和腐蚀速率的分布取决于化学动力学模型的选择。在选择等离子体反应器的动力学模型时，必须将计算数据与实验结果进行比较。

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Peculiarities of Si films etching in CF/sub 4/ parent gas

The peculiarities of heat-mass transfer in a radial flow reactor are discussed. Flow structure, temperature of gas mixture and reactive species concentration distribution were studied as a functions of gas flow rate and wafer temperature. The simulations of the reactor incorporated the modeling of the hydrodynamical and molecular transport processes in the etching chamber. The authors considered two-, three- and four-component chemical kinetics. The electron density distribution corresponded to a "diffusion-dominated" discharge. In ther analysis of the calculation data, it was shown that the significant radial gradients of gas temperature appeared and reduced the etching uniformity of the wafer. The distribution of reactive species concentration and etching rate depends on the choice of chemical kinetic model. To choose the kinetic model of the plasma reactor it is necessary to carry out a comparison of calculation data with experimental results.

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来源期刊

2000 22nd International Conference on Microelectronics. Proceedings (Cat. No.00TH8400)

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