Light generation at the anomalous dispersion high energy range of a nonlinear opal film

Muriel Botey,Alberto Molinos-Gómez,Gabriel Lozano,Agustín Mihi,Ricardo A Depine,Luis Dorado,Marc Maymó,Hernán Míguez,Jordi Martorell

doi:10.1364/oe.17.012210

Abstract

We study experimentally and theoretically light propagation and generation at the high energy range of a close-packed fcc photonic crystal of polystyrene spheres coated with a nonlinear material. We observe an enhancement of the second harmonic generation of light that may be explained on the basis of amplification effects arising from propagation at anomalous group velocities. Theoretical calculations are performed to support this assumption. The vector KKR method we use allows us to determine, from the linear response of the crystal, the behavior of the group velocity in our finite photonic structures when losses introduced by absorption or scattering by defects are taken into account assuming a nonzero imaginary part for the dielectric constant. In such structures, we predict large variations of the group velocity for wavelengths on the order or smaller than the lattice constant of the structure, where an anomalous group velocity behavior is associated with the flat bands of the photonic band structure. We find that a direct relation may be established between the group velocity reduction and the enhancement of a light generation processes such as the second harmonic generation we consider. However, frequencies for which the enhancement is found, in the finite photonic crystals we use, do not necessarily coincide with the frequencies of flat high energy bands.

Highlights

We study experimentally and theoretically light propagation and generation at the high energy range of a close-packed fcc photonic crystal of polystyrene spheres coated with a nonlinear material
We find that a direct relation may be established between the group velocity reduction and the enhancement of a light generation processes such as the second harmonic generation we consider
In the band structure of photonic crystals (PC) an anomalous behavior for the group velocity is seen to appear in the high energy region, when the wavelength of the light is on the same order or smaller than the lattice constant [1]

Summary

Introduction

In the band structure of photonic crystals (PC) an anomalous behavior for the group velocity is seen to appear in the high energy region, when the wavelength of the light is on the same order or smaller than the lattice constant [1]. We used the same type of vector KKR calculation method to extract the group velocity for the transmitted and the reflected fields as a function of the wave frequency. The wavelength dependence of second harmonic generation in that region is analyzed using the vector KKR calculation method to extract the group velocity for the transmitted and the reflected electric fields as a function of the wave frequency for a PC of polystyrene spheres

Nonlinear opal preparation and characterization

Observation of second harmonic generation from a nonlinear opal

Group velocity and second harmonic generation

Conclusions