Emission of interface modes by dipoles in photonic crystals

Existence of very high order guided modes of visible radiation is demonstrated for high-refractive-index-step fused silica submicron waveguide channels in microstructure fibers. Cherenkov emission of solitons produced by femtosecond laser pulses in such photonic wires is ideally suited for selective

## Abstract We have developed an algorithm for evaluating the accuracy and reliability of photonic crystal (PhC) simulations, and used it to analyze the influence of excitation and detector placement in finite‐difference time‐domain algorithm (FDTD) simulations of two canonical PhC systems. In orde

The generation and stabilization of coherent modes induced by electric dipole-dipole interactions in a quantum dot ensemble are verified, by means of a standard interaction Hamiltonian scheme, and also by way of a full quantum mechanical path integral on the coherent state basis.

A passively mode-locked ytterbium-doped largemode-area photonic crystal fiber oscillator operating in the vicinity of zero cavity dispersion is demonstrated. The self-starting mode-locking operation is achieved by a high contrast saturable absorber mirror. Two mode-locking regimes with opposite sign

## Abstract An efficient finite‐difference time‐domain method is proposed for the full‐wave analysis of guided modes in photonic crystal fibers. The three‐dimensional hybrid guided modes can be calculated by a two‐dimensional mesh, if one assumes that the propagation constant along the __z__‐direct