论文信息 - Application-specific methods for creating simulation masks

Application-specific methods for creating simulation masks

Lithography simulation is being used in a wide range of applications to help lithographers solve an equally wide range of problems. A necessary input to optical lithography simulation is the specification of the mask transmittance function, m(x,y), which forms the basis for the aerial image calculation. Various methods are used to specify m(x,y). The choice of method depends, in part, on the capabilities of the simulation software package and the available information. To maximize effectiveness, efficiency and accuracy, users should choose a method of specifying m(x,y) which considers the requirements of their application. In many cases, a simple expression for m(x,y) is all that is needed. In other cases, finer detail is desirable or even necessary. This paper reviews many techniques to generate m(x,y) for the PROLITH family of lithography simulators and presents current research for the defect printability application.

Darren Taylor | William B. Howard

[1] Vicky Philipsen,et al. Extended Defect Printability Study for 100nm Design Rule using 193 nm Lithography , 2002, Photomask Technology.

[2] Chris A. Mack,et al. PRIMADONNA: a system for automated defect disposition of production masks using wafer lithography simulation , 2002, Photomask Technology.

[3] Vincent Wiaux,et al. Assessment of OPC effectiveness using two-dimensional metrics , 2002, SPIE Advanced Lithography.

[4] Chris A. Mack,et al. Matching simulation and experiment for chemically amplified resists , 1999, Advanced Lithography.

[5] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.

[6] Vikram Tolani,et al. DIVAS: an integrated networked system for mask defect dispositioning and defect management , 2003, SPIE Advanced Lithography.

[7] Chris A. Mack,et al. Process-specific tuning of lithography simulation tools , 1997, Advanced Lithography.

[8] Robert L. Jones,et al. Theoretical corner rounding analysis and mask writer simulation , 2003, SPIE Advanced Lithography.

[9] Chris A. Mack,et al. Automatic calibration of lithography simulation parameters , 2001, Microelectronic and MEMS Technologies.

[10] Vincent Wiaux,et al. Tuning and simulating a 193-nm resist for 2D applications , 2002, SPIE Advanced Lithography.