深亚微米技术及其应用

Proceedings of 4th International Conference on Solid-State and IC Technology Pub Date : 1995-10-24 DOI:10.1109/ICSICT.1995.503379

Denton Wu

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引用次数: 0

摘要

在“深亚微米结构和介观物理”项目中开发了各种深亚微米技术。利用同步辐射源在BEPC NL进行x射线光刻，获得了93 nm的线宽图和0.3 /spl μ m /m的PHEMT。在改进的NEC S-530扫描电镜系统上进行电子束光刻，获得0.1 /spl mu/m的分辨率。采用电子束直接写入和选择性化学蚀刻相结合的方法制备了微磁盘激光器。此外，我们成功地研究了高密度等离子体的ICP干刻蚀系统，并获得了0.4 /spl mu/m的线宽图案。电子束掺杂是获得0.1 /spl μ m浅结深度的新方法。我们成功地将上述技术和其他替代方法应用于制造0.2 /spl μ l /m Si MOSFET, 0.3 /spl μ l /m PHEMT，真空微电子二极管阵列等。采用PECVD和Ar/sup +/激光再结晶技术结合SiN/sub x/势垒硅获得纳米尺寸的光致发光量子微晶体。

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Deep submicron technology and applications

A variety of deep submicron technologies have been developed in the project "Deep Submicron structure and Mesoscopic physics". A 93 nm linewidth pattern and a 0.3 /spl mu/m PHEMT were obtained by X-ray lithography with a synchrotron radiation source in BEPC NL. 0.1 /spl mu/m resolution was attained by electron beam lithography, which was performed in a modified NEC S-530 scanning electron microscope system. Microdisk lasers were fabricated by E-Beam direct writing combined with selective chemical etching processing. In addition, we successfully investigated an ICP dry etching system with a high density plasma and obtained a 0.4 /spl mu/m linewidth pattern. E-Beam doping is a new method to obtain 0.1 /spl mu/m shallow junction depth. We successfully apply the above technology and other alternative approaches for manufacture of 0.2 /spl mu/m Si MOSFET's, a 0.3 /spl mu/m PHEMT, a vacuum microelectronic diode array, etc. Adopted PECVD and Ar/sup +/ laser recrystallization technology combined with SiN/sub x/ barrier Si quantum micro crystals of nm size and photoluminescence were obtained.

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Proceedings of 4th International Conference on Solid-State and IC Technology

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