Abstract: A two-way optical communication device for use in a two-way optical communication system for transmitting and receiving an optical signal via a single optical fiber, comprises a light emitting element for generating transmitted light, a photodetector for receiving incoming light emitted from the optical fiber, and a reflection mirror made of a thin film having a high reflectance, having first and second surfaces, the first surface being opposite to the second surface. An optical member including the reflection mirror is provided closer to the optical fiber than the light emitting element. The incoming light emitted from the optical fiber is reflected by the first surface of the reflection mirror to be guided to the photodetector. The transmitted light emitted from the light emitting element or the transmitted light reflected by an end surface of the optical fiber is reflected by at least a portion of the second surface of the reflection mirror to prevent the transmitted light from entering the photodetector.

Abstract: A method of depositing a dual layer top clad for an optical waveguide of a planar lightwave circuit (PLC). The method includes a first step of providing a high flow rate of a Boron dopant gas for a first top cladding layer deposition process. Then, a low flow rate of a Boron dopant gas is provided for a second top cladding layer deposition process. The second top cladding layer deposition process is performed directly on the first top cladding layer deposition. The first and second top cladding layer deposition processes are combined to form a dual layer top clad of the PLC having a high Boron portion covering a plurality of optical cores and a low Boron portion covering the first portion. The first top cladding layer deposition process can comprises three deposition and anneal cycles using the high flow rate for the Boron dopant gas. The three deposition and anneal cycles are used to fill gaps between the plurality of optical cores of the PLC.