Patent ID: 6274398
Filing Date: 2001-08-14
Classification: H01L,H01S

Abstract:
A method for manufacturing a plurality of semiconductor photonic integrated circuits on a single semiconductor substrate, each of said integrated circuits comprising at least a first and a second photonic device connected optically to one another, said method comprising the steps of:(i) growing a first set of layers, including at least a first waveguide layer, to form said first photonic device on said substrate,(ii) providing an insulating film mask comprising masking parts covering each of said first photonic devices so as to define covered and exposed areas on said substrate,(iii) removing said first set of layers from said exposed areas,(iv) selecting an area for each second photonic device adjacent to and in a light transmission direction of each of said first photonic devices, and(v) growing a second set of layers, comprising at least a second waveguide layer, to form said second photonic device by use of a selective area growth process,wherein said method further comprises the steps of:(a) measuring variations in band-gap energy, across the substrate, in a waveguide layer corresponding to the second waveguide layer on a reference substrate, prior to step (ii), said variations resulting from the selective area growth process, which in turn causes a variation in detuning between the first and the second photonic device across the substrate, due to said variations in band-gap energy in the second waveguide layer,(b) providing said insulating film mask in step (ii) with at least one additional masking part adjacent to each of said areas, each additional masking part having a selected length and a selectable width, and being placed substantially in parallel to the light transmission direction of each respective first photonic device, and(c) selecting the width of each additional masking part, to correspond to said measured variations in band-gap energy, to at least partially compensate the variations in band-gap energy in the second waveguide layer across the substrate,thereby reducing the variation in detuning between the first and the second photonic device across the substrate.