论文信息 - Numerical modeling of the excimer beam

Numerical modeling of the excimer beam

Using detailed metrology and modeling,the excimer beam may be completely characterized making it possible to achieve good agreement among various test methods and allowing accurate prediction of the beam performance in photolithographic and other applications. Full characterization consists of determining the intensity envelope, wavefront error, and detailed speckle structure statistics. The numerical model consists of a series of exact 2D instantaneous representations of the complex amplitude propagated through the beam train, with time varying speckled structure and integration to generate the time-averaged beam envelope. The detailed description provides a means to validate simpler, but more appropriate, theories and to determine the limits of accuracy of these simpler methods for various experiment configurations. We also show results of very recent time-resolved experiments of near-field and focal plane profiles.

Ying Lin | Jesse D. Buck | Ying-Tso Lin | J. Buck

[1] Hans Peter Herzig,et al. Microlens array imaging system for photolithography , 1996 .

[2] O. Kafri,et al. Direct determination of the number of transverse modes of a light beam. , 1983, Optics letters.

[3] J. Goodman. Introduction to Fourier optics , 1969 .

[4] Emil Wolf,et al. Principles of Optics: Contents , 1999 .

[5] Uday K. Sengupta. Krypton fluoride excimer laser for advanced microlithography , 1993 .

[6] David L. Wright,et al. Status of ISO/TC 172/SC9/WG1 on standardization of the measurement of beam widths, beam divergence, and propagation factor , 1993, Other Conferences.

[7] William N. Partlo,et al. Design considerations and performance of 1-kHz KrF excimer lasers for DUV lithography , 1996, Advanced Lithography.

[8] J. Walkup,et al. Statistical optics , 1986, IEEE Journal of Quantum Electronics.

[9] J C Wyant,et al. Double frequency grating lateral shear interferometer. , 1973, Applied optics.

[10] S. Watanabe,et al. Spatial coherence of KrF excimer lasers. , 1992, Applied optics.

[11] A. E. Siegman,et al. Diffraction calculations using fast Fourier transform methods , 1974 .

[12] Anthony E. Siegman,et al. Output beam propagation and beam quality from a multimode stable-cavity laser , 1993 .