采用新型溶剂回流技术在室温下制备250纳米t栅In52Al48As-In70Ga30As pHEMT

The Ninth International Conference on Advanced Semiconductor Devices and Mircosystems Pub Date : 2012-11-01 DOI:10.1109/ASDAM.2012.6418547

K. Ian, M. Exarchos, M. Missous

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引用次数: 6

摘要

利用传统的1μm i-Line光刻技术和新颖的溶剂回流技术，成功制备了具有250 nm T-Gate结构的In52Al48As-In70Ga30As pHEMT。该工艺的主要优点是能够在非常低的温度下使用高通量的光学光刻技术制造纳米级结构。通过溶剂回流，从原来的1 μm脚印中获得了较大的栅极收缩(> 0.70μm)，再加上蘑菇栅极结构的制造，得到了一个非常高性能的250纳米t栅极器件。对于2×50μm器件，漏源距离为3μm时，最大GM和IDS分别为940mS/mm和580mA/mm，截止频率为90ghz。

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Fabrication of 250-nm T-gate In52Al48As-In70Ga30As pHEMT using a novel solvent reflow technique at room temperature

An In₅₂Al₄₈As-In₇₀Ga₃₀As pHEMT with 250-nm T-Gate structure has been successfully fabricated by utilising a conventional 1μm i-Line lithography and a novel solvent reflow technique. The key advantage of this process is its capability of fabricating nano-scaled structures by using optical lithography with high throughput at very low temperature. The large gate shrinkage (>;0.70μm) from the original 1-μm foot print by solvent reflow, coupled with the fabrication of mushroom gate structures, yields a very high performance 250-nm T-gate device. For a 2×50μm device and with a 3μm drain-source distance, the maximum GM and IDS are 940mS/mm and 580mA/mm respectively and its associated cut-off frequency is 90 GHz.

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The Ninth International Conference on Advanced Semiconductor Devices and Mircosystems

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