论文信息 - Characterization of excimer lasers for application to lenslet array homogenizers.

Characterization of excimer lasers for application to lenslet array homogenizers.

We investigate the best method of characterizing high-divergence lasers, such as excimer lasers, to suppress fine-scale intensity nonuniformity that is due to coherence effects of lenslet homogenizers. We show by a detailed analysis of the lenslet homogenizer that, for highest accuracy, a direct measurement of the value of the autocorrelation function should be made at the separation p of the lenslet elements, identified as the critical spatial period. We show that the commonly used characterization of lasers by the 1/e(2) width of the angular divergence is not the most accurate test and may overstate or understate the effectiveness of a given laser.

[1] B. A. See. Measuring laser divergence , 1997 .

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

[3] Y. Lin,et al. Distributed phase plates for super-Gaussian focal-plane irradiance profiles. , 1995, Optics letters.

[4] X. Deng,et al. Uniform illumination of large targets using a lens array. , 1986, Applied optics.

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

[6] A Cordero-Dávila,et al. Ronchi test with a square grid. , 1998, Applied optics.

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

[8] Y Ozaki,et al. Cylindrical fly's eye lens for intensity redistribution of an excimer laser beam. , 1989, Applied optics.

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

[10] K Murata,et al. Reshaping collimated laser beams with Gaussian profile to uniform profiles. , 1983, Applied optics.

[11] Kiichi Takamoto,et al. Young’s interference fringes with multiple-transverse-mode laser illumination , 1989 .