Abstract

The authors describe the fabrication of buried waveguides in a highly nonlinear chalcogenide glass, gallium lanthanum sulfide, using focused femtosecond laser pulses. Through optical characterization of the waveguides, they have proposed a formation mechanism and provide comparisons to previous work. Tunneling has been identified as the dominant nonlinear absorption mechanism in the formation of the waveguides. Single mode guidance at 633nm has been demonstrated. The writing parameters for the minimum propagation loss of 1.47dB∕cm are 0.36μJ pulse energy and 50μm∕s scanning speed.