I. Introduction

Optical waveguide directional couplers are the building blocks of many integrated-optic devices, such as signal dividers, wavelength-division multiplexers, add/drop multiplexers, and modulators/switches based on Mach–Zehnder interferometers. The behavior of a directional coupler in the form of two parallel identical optical waveguides is characterized by a coupling coefficient, which is a measure of the difference in the propagation constant between the symmetric and antisymmetric modes of the composite waveguide structure [1]. In general, the coupling coefficient and, hence, the splitting ratio of a coupler, depends on the polarization state of light. This can give rise to polarization noise when light is launched into the coupler from a single-mode fiber. It is of practical interest to search for designs of directional couplers that have polarization-independent coupling coefficients. Fig. 1. Cross section of a directional coupler consisting of two parallel rectangular-core waveguides.