| 超深亚微米自对准平面双栅MOSFET假栅的制作 |
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| 引用本文: | 王志玮,徐秋霞. 超深亚微米自对准平面双栅MOSFET假栅的制作[J]. 微电子学, 2005, 35(1): 93-96,99 |
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| 作者姓名: | 王志玮 徐秋霞 |
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| 作者单位: | 中国科学院,微电子研究所,北京,100029 |
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| 摘 要: | 进入超深亚微米领域以后,传统CMOS器件遇到了器件物理、工艺技术等方面难以逾越的障碍.普遍认为,必须引入新结构和新材料来延长摩尔定律的寿命.其中,双栅CMOS被认为是新结构中的首选.在制作平面型双栅MOS器件中,采用自对准假栅结构,利用UHV外延得到有源区(S、D、G),是一种制作自对准双栅MOSFET的有效手段.文章详细研究了一种假栅制作技术.采用电子束曝光,结合胶的灰化技术,得到了线宽为50 nm的胶图形,并用RIE刻蚀五层介质的方法,得到了栅长仅为50 nm的自对准假栅结构.
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| 关 键 词: | 双栅MOSFET 自对准 亚微米工艺 假栅 |
| 文章编号: | 1004-3365(2005)01-0093-04 |
Fabrication of Ultra Deep Submicron Replaced Gate for Self-Aligned Planar Double-Gate MOSFET''''s |
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| WANG Zhi-wei,XU Qiu-xia. Fabrication of Ultra Deep Submicron Replaced Gate for Self-Aligned Planar Double-Gate MOSFET''''s[J]. Microelectronics, 2005, 35(1): 93-96,99 |
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| Authors: | WANG Zhi-wei XU Qiu-xia |
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| Abstract: | When scaled down to the ultra deep sub-micron field, the traditional CMOS device encounters serious challenges in device physics and fabrication technologies. It is generally agreed that new device structure and new materials have to be introduced to extend the Moor's law. Double-gate CMOS is considered the first choice among new device structures. An effective way to fabricate self-aligned double-gate MOSFET's is to prepare a replaced gate structure and make the active area (S,D,G) using UHV epitaxy. A method to fabricate the replaced gate structure is discussed in the paper. Using e-beam and resist ashing, resist patterns with 50 nm line-width are obtained, and a self-aligned replaced gate structure with 50 nm gate-length is fabricated by etching 5 layers of dielectrics with RIE. |
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| Keywords: | Double-gate MOSFET Self-alignment Sub-micron process Replaced gate |
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