Add to ORKGModal Dispersion Phase Matching appears to be currently much better adapted to parametric mixing in polymeric material waveguides than Quasi Phase Matching. For second harmonic generation at telecommunication wavelengths, using organic materials should allow better performance than with ferroelectric crystals. Promising results are expected in view of theoretical expectations and continuously improving experimental past and current results
Second-harmonic generation using modal dispersion phase matching has been demonstrated in reactive-i...
Second-harmonic generation using modal dispersion phase matching has been demonstrated in reactive-i...
Modal dispersion phase-matched second harmonic generation is demonstrated in new poled polymer waveg...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
Modal dispersion phase-matched second harmonic generation is demonstrated in new polymer waveguides ...
Phase matching with use of modal dispersion typically requires excellent control of the waveguide th...
Phase matching with use of modal dispersion typically requires excellent control of the waveguide th...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
The authors report on a second harmonic generation in a poled polymer waveguide using anomalous disp...
Second-harmonic generation using modal dispersion phase matching has been demonstrated in reactive-i...
Second-harmonic generation using modal dispersion phase matching has been demonstrated in reactive-i...
Modal dispersion phase-matched second harmonic generation is demonstrated in new poled polymer waveg...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
The authors report phase-matched second harmonic generation using the modal dispersion of a polymeri...
Modal dispersion phase-matched second harmonic generation is demonstrated in new polymer waveguides ...
Phase matching with use of modal dispersion typically requires excellent control of the waveguide th...
Phase matching with use of modal dispersion typically requires excellent control of the waveguide th...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
The authors report on a second harmonic generation in a poled polymer waveguide using anomalous disp...
Second-harmonic generation using modal dispersion phase matching has been demonstrated in reactive-i...
Second-harmonic generation using modal dispersion phase matching has been demonstrated in reactive-i...
Modal dispersion phase-matched second harmonic generation is demonstrated in new poled polymer waveg...