Reflection properties of uncoated and gold-coated InP photonic crystals

We investigated the spectral and angle resolved reflectance of uncoated and gold coated InP nanowire (NW) arrays which were grown by selective area epitaxy. The NW arrays were coated with a 12-nm thick Al₂O₃ film to suppress atmospheric oxidation. An additional 10-nm thick gold film was further deposited around the NWs to investigate plasmonic effects. The arrays reveal pronounced Fabry-Perot oscillations due to their strong intrinsic birefringence, shifted for p- and s-polarized light. Gold-coating of the NW array increases the reflectance by a factor of two to three compared to the uncoated array. This increase is attributed to a plasmon resonance of the gold caps on top of the NWs and to a plasmonic antenna effect for p-polarized light. Both interpretations are supported by finite-difference time-domain simulations. The reflectance of light is highly polarization-dependent, making InP NW PhC arrays ideal micrometer-sized optical elements like polarizers, analyzers, and mirrors with potential applications in photonic integrated circuits.