193nm化学放大抗蚀剂在曝光后烘烤和曝光后延迟中的特性

Digest of Papers. Microprocesses and Nanotechnology '99. 1999 International Microprocesses and Nanotechnology Conference Pub Date : 1900-01-01 DOI:10.1109/imnc.1999.797492

Eun-Mi Lee, Moon-Gyu Sung, Young-Mi Lee, Young-Soo Sohn, Hye-Keun Oh

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引用次数: 1

摘要

光刻模拟可以帮助选择工艺工具、技术和材料。它还可以提高过程控制和精度。波长为193 nm的ArF准分子激光被认为是亚100 nm器件的主要光刻源。因此，为了提取仿真模型所需的参数，有必要对193 nm化学放大抗蚀剂(CAR)进行表征分析。为了进行精确的模拟，需要良好的抗蚀剂性能测量和计算，例如光学常数和活化位点浓度(C/sub / as/)。我们研究了193 nm CAR在曝光后烘烤(PEB)和曝光后延迟(PED)中的特性。我们发现光学常数与抗蚀剂的C/sub /直接相关。我们用测得的厚度和透光率进行多次薄膜计算，得到抗蚀剂的光学常数。C/sub /变化由光学常数计算得到。厚度和光学常数随曝光能量和PEB条件的变化而变化，特别是厚度的变化与C/sub /变化直接相关。

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Characteristics of 193 nm chemically amplified resist during post exposure bake and post exposure delay

Lithography simulation can help selecting the process tools, techniques, and materials. It can also improve process control and precision. ArF excimer laser with 193 nm wavelength is believed to be the main lithography source for sub-100 nm device. So the characterization analysis of 193 nm chemically amplified resist (CAR) is necessary in order to extract the parameters' needed by the simulation model. For accurate simulation, good measurements and calculation of resist properties are needed, such as the optical constant and concentration of activated sites (C/sub as/). We investigated the characteristics of 193 nm CAR during post exposure bake (PEB) and post exposure delay (PED). We found that the optical constant is directly related to the C/sub as/ of the resist. We used the multiple thin film calculations with the measured thickness and transmittance to obtain the optical constant of the resist. The C/sub as/ change was obtained from optical constants. The thickness and the optical constant are changed with the exposure energy and PEB conditions, Especially the thickness change is directly related to the C/sub as/ change.

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Digest of Papers. Microprocesses and Nanotechnology '99. 1999 International Microprocesses and Nanotechnology Conference

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