Wædegaard, Kristian Juncher3; Hansen, Henrik Dueholm2; Balling, Peter3
1 Department of Physics and Astronomy, Science and Technology, Aarhus University2 Aarhus University3 Department of Physics and Astronomy, Science and Technology, Aarhus University
Computer-generated binary holograms are written on a polished copper surface using single 800-nm, 120-fs pulses from a 1-kHz-repetition-rate laser system. The hologram efficiency (i.e. the power in the holographic reconstructed image relative to the incoming laser power) is investigated for different laser-structuring parameters. Theoretical diffraction grating efficiencies for a binary amplitude grating show good agreement with the experimental measurements for diameters of the laser-formed holes below the pitch. Modelling based on straightforward geometrical arguments is used to find the optimal hole size. For a coverage (i.e. relative laser-structured area) of ∼43 %, the efficiency reaches ∼10 %, which corresponds to a relative power transferred to one reconstructed image of ∼20 %. The efficiency as a function of pitch (for fixed coverage) is fairly constant from 2 to 6 μm.
Applied Physics B, 2013, Vol 113, Issue 3, p. 345-349