Dot-matrix holographic recording in amorphous chalcogenide films

Andrejs Bulanovs; Vjacheslavs Gerbreders; Valfrids Paschkevich; Janis Teteris

doi:10.1117/12.726405

25 January 2007 Dot-matrix holographic recording in amorphous chalcogenide films

Andrejs Bulanovs, Vjacheslavs Gerbreders, Valfrids Paschkevich, Janis Teteris

Proceedings Volume 6596, Advanced Optical Materials, Technologies, and Devices; 65960K (2007) https://doi.org/10.1117/12.726405
Event: Advanced Optical Materials, Technologies, and Devices, 2006, Vilnius, Lithuania

Abstract

We have developed PC controlled dot-matrix holographic recording system based on the CW diode pumped YAG:Nd SHG laser (wavelength 532 nm, power 30mW,) modulated electronically with TTL signals. Two-beam technique has been used with convergence angle 30^o and PC controlled incident beam plane rotation 0-360^o. Optical system consists of beam splitter, 40mm focus length forming cylindrical lens and 40mm focusing lens. Characteristic parameters of experimental equipment are following: spot size - 50-200 micrometers, direct laser writing area, limited by x-y positioning system, was 70mm x 70mm, number of writing head rotation positions up to 256 (8 bit), time of each exposure - 1-1000 msec. As the recording material we have used As_xS_ySe_1-x chalcogenide glass material. Diffraction efficiency of written gratings in the material in dot-matrix regime exceeds 25%. Original method for surface relief enhancement by etching and subsequent electroplating has been developed. Special PC controlled device for thermal imprinting of relief holograms on the metallized polyamide film has been built. Measurements of light transmission, reflection, and diffraction phenomena of laser beams in processed chalcogenide materials are discussed.

Citation Download Citation

Andrejs Bulanovs, Vjacheslavs Gerbreders, Valfrids Paschkevich, and Janis Teteris "Dot-matrix holographic recording in amorphous chalcogenide films", Proc. SPIE 6596, Advanced Optical Materials, Technologies, and Devices, 65960K (25 January 2007); https://doi.org/10.1117/12.726405

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