L. Wenke scite author profile

We report on reflection gratings produced entirely of dielectric materials. This gives the opportunity to enhance the laser damage threshold over that occurring in conventional metal gratings used for chirped-pulse-amplification, high-power lasers. The design of the system combines a dielectric mirror and a well-defined corrugated top layer to obtain optimum results. The rules that have to be considered for the design optimization are described. We optimized the parameters of a dielectric grating with a binary structure and theoretically obtained 100% reflectivity for the -1 order in the Littrow mounting for a 45 degrees angle of incidence. Subsequently we fabricated gratings by structuring a low-refractive-index top layer of a multilayer stack with electron-beam lithography. The multilayer system was fabricated by conventional sputtering techniques onto a flat fused-silica substrate. The parameters of the device were measured and controlled by light scatterometer equipment. We measured 97% diffraction efficiency in the -1 order and damage thresholds of 4.4 and 0.18 J/cm(2) with 5-ns and 1-ps laser pulses, respectively, at a wavelength of 532 nm in working conditions.

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Surface relief measurements in side-chain azobenzene polyesters with different substituents

Helgert

Wenke

Hvilsted

et al. 2001

Appl Phys B

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An improved method for separating the kinetics of anisotropic and topographic gratings in side-chain azobenzene polyesters

Helgert¹,

Fleck²,

Wenke³

et al. 2000

Appl Phys B

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L. Wenke

Photoinduced deformation of azobenzene polyester films

A model for surface-relief formation in azobenzene polymers

High-efficiency dielectric reflection gratings: design, fabrication, and analysis

Surface relief measurements in side-chain azobenzene polyesters with different substituents

An improved method for separating the kinetics of anisotropic and topographic gratings in side-chain azobenzene polyesters

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