Study of the formation of a microrelief on ZnSe- and CdSe-crystal surfaces ablated by excimer KrF-laser radiaton

S K Vartapetov,V A Mikhailov,A V Zakhryapa,Ya K Skasyrsky,I Yu Porofeev,I M Yutkin,Yu V Korostelin,V I Kozlovsky,M P Frolov,Yu P Podmar'Kov,D E Sviridov

doi:10.1070/qel16155

Study of the formation of a microrelief on ZnSe- and CdSe-crystal surfaces ablated by excimer KrF-laser radiaton

S K Vartapetov, V A Mikhailov + Show 9 more

https://doi.org/10.1070/qel16155

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Journal: Quantum Electronics	Publication Date: Oct 1, 2016
Citations: 3	License type: iop-standard

Affiliation: Prokhorov General Physics Institute, All-Russian Scientific Research Institute of Technical Physics, P.N. Lebedev Physical Institute of the Russian Academy of Sciences, Moscow Engineering Physics Institute

#Depth Of Gratings #Surfaces Of CdSe #Excimer KrF Laser #One-dimensional Grating #Energy Density #Number Of Pulses #Surface Reflectivity #Single Pulse #CdSe Crystals #Surfaces Of Crystals

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One-dimensional gratings with a period of are formed on the surfaces of CdSe and ZnSe crystals ablated by two interfering radiation beams of a nanosecond excimer KrF laser. Investigated are the dependences of the shape and depth of gratings on the energy density under irradiation by a single pulse, and on the number of pulses at a given energy density. The maximum grating depth is estimated as of the period. By forming a one-dimensional grating with a period of and a depth of on the CdSe-crystal surface, this surface becomes antireflective at a wavelength of . The surface reflectivity is reduced by 88 %. A possibility of forming two-dimensional gratings having periods of 1 and is demonstrated.

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Study of the formation of a microrelief on ZnSe- and CdSe-crystal surfaces ablated by excimer KrF-laser radiaton