Photorefractive Semiconductors and Quantum-Well Structures

“…For inorganic crystals, the operational wavelength depends on the properties of the respective crystal and its doping and processing 100% internal diffraction effi ciency is never reached in practice due to internal losses. Complete internal diffraction usually refers to over-modulation of the signal (see experimental Section) in transmission geometry at η > 90%; b) interband photorefraction, here SPS at 480/532 nm; c) microcavity enhanced; [ 44 ] λ < 500 nm; k) λ = 1064 nm; [ 37 ] l) SPS, λ = 1064 nm; [ 40 ] m) 25 kHz repetition rate under imaging conditions; [ 48 ] n)…”

Organic Photorefractive Materials and Applications

“…For inorganic crystals, the operational wavelength depends on the properties of the respective crystal and its doping and processing 100% internal diffraction effi ciency is never reached in practice due to internal losses. Complete internal diffraction usually refers to over-modulation of the signal (see experimental Section) in transmission geometry at η > 90%; b) interband photorefraction, here SPS at 480/532 nm; c) microcavity enhanced; [ 44 ] λ < 500 nm; k) λ = 1064 nm; [ 37 ] l) SPS, λ = 1064 nm; [ 40 ] m) 25 kHz repetition rate under imaging conditions; [ 48 ] n)…”

Organic Photorefractive Materials and Applications