A proposal for low cross-talk square-lattice photonic crystal waveguide intersection utilizing the symmetry of waveguide modes

Abstract

We propose an approach to construct waveguide intersections with broad bandwidth and low cross-talk for square-lattice photonic crystals, by utilizing a vanishing overlap of the propagation modes in the waveguides created by defects which support dipole-like defect modes. The finite-difference time-domain method is used to simulate the waveguide intersection created in the two-dimensional square-lattice photonic crystals. Over a bandwidth of 30 nm with the center wavelength at 1300 nm, transmission efficiency above 90% is obtained with cross-talk below −30 dB. Especially, we demonstrate the transmission of a 500-fs pulse at 1.3 μm through the intersection, and the pulse after transmission shows very little distortion while the cross-talk remains at low level meantime.