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Spectral analysis of femtosecond pulse diffraction through binary diffractive optical elements: theory and experiment

O Mendoza-Yero, G Mínguez-Vega, J Lancis, E Tajahuerce, and V Climent-OPTICS EXPRESS, Vol 16, No.4.
We report on the changes in the spectrum of a femtosecond pulse originated by diffraction of the ultrashort waveform through a circularly symmetric binary diffractive optical element. The analysis is performed in the framework of the Rayleigh-Sommerfeld formulation of the diffraction, where an analytical expression for the monochromatic amplitude distribution close to the optical axis is obtained. To corroborate our results, we experimentally measure the variations of the pulse spectrum within the collecting area of a spectrometer located at the output plane. Multiple splitting of the pulse spectrum in the vicinity of a focal position and a phase singularity are shown… The output integrated power spectrum was measured with a StellarNet EPP2000 fiber optics spectrometer (wavelength range from 135 nm to 1100 nm), whose input collecting area was limited by a pinhole.

Fig. Integrated output spectrum for pinholes of a) r0 = 75ìm , b) r0 = 200ìm and c) for the incoming ultrashort pulse (without pinhole).

Fig. Integrated output spectrum for pinholes of a) r0 = 75ìm , b) r0 = 200ìm and c) for the incoming ultrashort pulse (without pinhole).