Rib waveguide curvature loss: the scalar problem

Abstract

The volume current method is used to obtain the curvature radiation loss from an integrated-optics dielectric rib waveguide in contact with the air. Following earlier workers, a single component of the electric field is assumed to satisfy a scalar Helmholtz equation. The electric field component is assumed to vanish on the air/dielectric interface; the introduction of this large discontinuity in the refractive index reduces the curvature loss considerably. The time and spatial decay constants appear as the product of two factors: a curvature factor C_F and a shape discriminating factor D_F. The factor C_F is of lower order of magnitude than the curvature factor for an optical fibre, but contains similar features which may be compared. The discriminating factor D_F may be calculated by the numerical solution of Helmholtz equations, but is discussed qualitatively here. Comparative shape studies are in agreement with physical intuition.