论文信息 - Mode tuning of quantum cascade lasers through optical processing of chalcogenide glass claddings

Mode tuning of quantum cascade lasers through optical processing of chalcogenide glass claddings

In this letter, we demonstrate a method of tuning quantum cascade (QC) lasers by modifying the optical properties of an overlying cladding material. An amorphous chalcogenide cladding layer is deposited through a low temperature, solvent-casting technique that is compatible with current QC laser fabrication and operation. Above band gap illumination (λ<530nm) of this cladding causes a permanent change in its index of refraction leading to a change of the modal refractive index and a corresponding modal shift in the laser. Combined with deep-etched distributed Bragg gratings, a tuning of over 30nm is obtained at an operating wavelength of 7.9μm for constant current and temperature.

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