Using the laser controlled thermocracking method, research results for the new technology of optical grids and scales manufacturing are given in this paper. The opportunity of grids and scales manufacturing is shown for a wide range of the sizes, scale’s pitches and its width: from 10 nanometers up to 10 microns with a backlight in various optical ranges.
References
[1]
L. M. Krivoviaz, D. T. Puriaev and M. A. Znamenskaya, “The Practice of Optical Measuring Laboratory,” Machinery, Moscow, 2004, 333 p.
[2]
V. S. Kondratenko, “Method of Cutting of Brittle Material,” the Patent of Russian Federation, No. 2024441, 1991.
[3]
I. V. Golubjatnikov, V. S. Kondratenko and A. B. Zhymalov, “Development of the Theory and Practice of a Method Laser Controlled Thermocracking,” Instruments, Vol. 12, No. 114, 2012, pp. 1-6.
[4]
V. S. Kondratenko, V. I. Gundiak and V. Y. Bersenyev, “Application of the Method of Laser Controlled Thermocracking of a Glass in the Production of Optical Parts— Electronic Engineering, Ser,” Laser Technology and Optoelectronics, Ser. Electronic Engineering, Vol. 4, No. 56, 1990, pp. 70-71.
[5]
V. S. Kondratenko, “Method of Cutting of Brittle NonMetallic Materials (Two Variants),” The Patent of Russian Federation, No. 2333163, 2007.
