Optical module, adjustment device, and adjustment method

Abstract

There is provided a light emitting element and an optical waveguide that propagates light from the light emitting element. For example, the optical waveguide is an optical fiber or a silicon optical waveguide. The light propagating through the optical waveguide is light having components of a fundamental mode and a first order mode, and the light propagates through the optical waveguide while having a light intensity distribution in which high intensity portions alternately appear in one direction and another direction opposite to the one direction with respect to the center of a core along the optical waveguide. A light intensity distribution at an output end surface of the optical waveguide is a light intensity distribution corresponding to an intermediate position between a first position where the high intensity portion is in the one direction and a second position where the high intensity portion is in the another direction. In a case of propagating the light having the components of the fundamental mode and the first order mode, it is possible to obtain favorable coupling efficiency regardless of a direction of an optical axis deviation, as in a case of propagating light having only the component of the fundamental mode. A cost is thus reduced by reducing accuracy of positional deviation.