Spectral hole burning and holography . V . Asymmetric diffraction from thin holograms
نویسندگان
چکیده
Thin holograms with novel diffraction properties were created in spectral hole-burning materials. Simultaneously sweeping the frequency of the recording light and the phase of the holograms results in an asymmetric distribution of diffraction efficiency between positive and negative orders. Experiments were performed that demonstrate amplified or attenuated diffraction efficiency with respect to holograms recorded at a single frequency. The observed diffraction is well described by a simple model in which small grating amplitudes and weak burning are assumed.
منابع مشابه
Phototautomerization and broadband spectral holography
We investigate the engraving of spectral holograms in porphyrin-derivative-doped solids, where a tautomerization process gives rise to persistent spectral hole burning at low temperature. Starting with a microscopic model of this process, we build a theory that connects conventional narrow-band hole burning with the engraving and retrieval of broadband holograms, in samples with possibly large ...
متن کاملHolography in frequency-selective media. III. Spectral synthesis of arbitrary time-domain pulse shapes
We study theoretically and experimentally the synthesis of arbitrary time-domain pulse shapes, using short laser pulses scattered by holograms stored in a spectrally selective hole-burning material. In general, writing holograms in spectrally selective materials results in cross talk and interference between different frequencies because of Kramers–Kronig dispersion relations. We discuss differ...
متن کاملSpectral hole burning in naphthalocyanines derivatives in the region 800 nm for holographic storage applications
Persistent spectral hole burning is studied for several free-based and metallo-naphthalocyanine derivatives in polymer hosts. These materials exhibit a strong 0}0 absorption band in the region 800 nm matching the wavelength range of most semiconductor diode lasers and Ti : Sapphire lasers. Metallo-naphthalocyanines demonstrate a nonphotochemical hole-burning mechanism that is likely related to ...
متن کاملSpectrally controlled interference of picosecond time-and-space-domain holograms.
We show that two superimposed time-and-space-domain holograms in a persistent spectral hole-burning material can produce destructive interference, even if the path-length difference of the writing beams is constant. The cancellation of the amplitudes in the 21 diffraction order occurs when the two holograms have specially chosen spectral envelopes that represent a pair of complementary function...
متن کاملSpectroscopy , persistent hole burning , and holographic applications of naphtophthalocyanine / haloanthracene systems
We report on the spectroscopic and hole burning properties of free-base naphtophthalocyanine with and without 1chloranthracene in polymer host. These materials exhibit a strong 0–0 absorption band in the region 800 nm matching the wavelength range of most semiconductor and Ti:Sapphire lasers. The materials studied feature two persistent hole burning photochemical mechanisms, i.e. one-photon pro...
متن کامل