Abstract
The authors report on tuning the near-infrared holographic recording speed in a
poly(
N
-vinylcarbazole) based photorefractive composite by illuminating it at a wavelength of very strong absorption. Due to the small penetration depth of the light under these conditions this approach allows to flood the material with charge carriers from the side of the sample. Even at light levels much stronger than the write beams, this additional illumination does allow for grating recording. However, under these conditions competition between positive and negative charges leads to sign inversion of the two-beam coupling gain coefficient during recording. An improvement of the recording speed is demonstrated.