Front induced transitions in slow light and dispersive waveguides

First published in
Proceedings of SPIE  
Number in series
11296
Article Number
112962O
Citation
Proceedings of SPIE: 112962O (2020)
Contribution to Conference
Optical, Opto-Atomic, and Entanglement-Enhanced Precision Metrology II 2020  
Publisher DOI
10.1117/12.2540476
Scopus ID
2-s2.0-85083030698
Publisher
SPIE
ISBN
978-1-5106-3356-8
978-1-5106-3355-1
Moving refractive index fronts in waveguides with dispersion is a special type of spatio-temporal modulation. The interaction of light with that front allows frequency conversion, light stopping, optical delays, and bandwidth and pulse duration manipulation. Here, we present examples of signal transmission, reflection, trapping and stopping. We will geometrically consider indirect transitions in the dispersion relation using the phase continuity relation at the front and present numerical solutions of the linear Schrödinger equation which follows from the slowly varying envelope approximation of the wave equation.
Subjects
Dynamic manipulation of light
front induced transition
nonlinear photonics
silicon waveguides
DDC Class
600: Technology