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Time domain modelling of sampled grating tunable lasers

Time domain modelling of sampled grating tunable lasers

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Monolithic tunable lasers are inevitably complex, and this complexity makes the design and development of such devices by a traditional iterative fabrication and testing cycle very slow. Also, from a systems perspective, it is important to be aware of what a tunable laser will do under any operating condition within a range of temperatures. Some of the capabilities of a time-domain-modelling technique applied to sampled-grating distributed-Bragg-reflector tunable lasers are demonstrated. Results are presented for the static tuning of different devices and the effect of a simple design change (which can be easily effected using the model) is investigated.

Inspec keywords: thermal stability; semiconductor lasers; optical design techniques; distributed Bragg reflector lasers; time-domain analysis; diffraction gratings; semiconductor device models; laser tuning; laser modes; laser theory

Other keywords: time-domain-modelling technique; sampled-grating distributed-Bragg-reflector tunable lasers; iterative testing cycle; iterative fabrication cycle; monolithic tunable lasers; time domain modelling; design change; DBR semiconductor lasers; sampled grating tunable lasers; complexity

Subjects: Semiconductor lasers; Laser beam modulation, pulsing and switching; mode locking and tuning; Lasing action in semiconductors; Optical system design; Laser beam modulation, pulsing and switching; mode locking and tuning; Semiconductor device modelling, equivalent circuits, design and testing; Gratings, echelles

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