Modeling and Process Analysis of the Mastering for Multi-level Run-length-limited Optical Discs

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Modeling and Process Analysis of the Mastering for Multi-level Run-length-limited Optical Discs

Article | 更新时间：2020-08-12

- Modeling and Process Analysis of the Mastering for Multi-level Run-length-limited Optical Discs
- Optics and Precision Engineering Vol. 16, Issue 6, Pages: 1063-1068(2008)
- 作者机构：
  
  清华大学光盘国家工程研究中心
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：09 November 2007，
  
  Revised：11 January 2008，
  
  Published Online：25 June 2008，
  
  Published：25 June 2008
- 稿件说明：
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唐毅,宋洁,潘龙法. 多阶游程受限光盘母盘刻录的建模与工艺研究[J]. 光学精密工程, 2008,16(6):1063-1068

Modeling and Process Analysis of the Mastering for Multi-level Run-length-limited Optical Discs[J]. Optics and precision engineering, 2008, 16(6): 1063-1068.
唐毅,宋洁,潘龙法. 多阶游程受限光盘母盘刻录的建模与工艺研究[J]. 光学精密工程, 2008,16(6):1063-1068 DOI：

Modeling and Process Analysis of the Mastering for Multi-level Run-length-limited Optical Discs[J]. Optics and precision engineering, 2008, 16(6): 1063-1068. DOI：

摘要

摘要：目的：传统光盘坑点的深度和宽度保持一致，多阶游程受限光盘坑点的深度和宽度随阶次的变化而不同，因此对母盘刻录工艺要求更高。因此值得对其刻录工艺进行研究。方法：建立了光盘母盘刻录的光刻模型。该模型中使用矢量衍射来计算聚焦光斑的光强分布，使用多层薄膜的光传导来描述光在光刻胶中的传播。结果：给出了关键工艺参数，例如光刻胶厚度、显影液浓度和显影时间，对典型坑点的深度和宽度影响的实验和仿真结果。光刻胶厚度的减少会引起宽度的增大和深度的减小。延长显影时间和增加显影液的效果相当，都会引起坑点宽度和深度的增加。结论：实验和仿真结果吻合，证明了模型的正确性。分析结果对实际中多阶母盘的制备很有参考价值。同时，理论模型还可以用于分析其他工艺参数的影响，以及用于分析其他格式光盘的母盘刻录工艺。

Abstract

Abstract: Objective: For conventional optical discs

the pit width and depth remain the same. But for multi-level run-length-limited optical discs

both the pit width and depth vary with the levels. Thus stricter requirement for mastering process is needed. The mastering process is worthy of in-deep research. Method: A photolithography model for optical disc mastering is built

where the vector diffraction is used to calculate the intensity distribution of the focused light spot

and the light propagation in multi-layer film structure is used to describe the light propagation in photo-resist. Result: The experiment and simulation results are present

including the influences of key process parameters on typical multi-level pit width and depth. These process parameters include photo-resist thickness

development time and developer concentration. The decrease of photo-resist thickness will cause increased width and deceased depth. The effects of the increases of development time and developer concentration are similar

each of which will cause increased width and depth. Conclusion: The accordance of experiment and simulation validates the model. Analysis results are helpful to the practical multi-level disc mastering. Meanwhile

the model can be used to analysis other process parameters

and mastering of other disc format mastering.

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