Kerr induced limit of effective interaction length of photoinduced SHG

Kerr induced limit of effective interaction length of photoinduced SHG

Peer-reviewed article not indexed in WoS or Scopus

A new theoretical model for the length dependence of second-harmonic generation in fibres is presented. The model assumes the interaction of non-monochromatic (pulse) radiations in fibres. The origin of second-order susceptibility is described by means of the general phenomenological formula. It is shown that the effective interaction length is restricted mainly due to self-phase and cross-phase modulation effects. The theoretical predictions for the effective interaction length are found to be in a very good agreement with the experimental results.

A new theoretical model for the length dependence of second-harmonic generation in fibres is presented. The model assumes the interaction of non-monochromatic (pulse) radiations in fibres. The origin of second-order susceptibility is described by means of the general phenomenological formula. It is shown that the effective interaction length is restricted mainly due to self-phase and cross-phase modulation effects. The theoretical predictions for the effective interaction length are found to be in a very good agreement with the experimental results.

GLASS OPTICAL FIBERS, 2ND-HARMONIC GENERATION, HARMONIC-GENERATION

GLASS OPTICAL FIBERS, 2ND-HARMONIC GENERATION, HARMONIC-GENERATION

PETRÁČEK, J.

01.01.1996

0078-5466

OPTICA APPLICATA

26

3

Republic of Poland

301

6