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Multi-section distributed-feedback lasers with surface gratings have been fabricated, without re-growth, by employing nanoimprint lithography. High-frequency photon-photon resonance was exploited to extend their direct modulation bandwidth beyond the limitations set by the carrier-photon resonance.
The paper presents the modelling and design particularities of laterally-coupled distributed feedback lasers (LC-DFB), the fabrication process, involving a highly productive and cost-effective UV-nanoimprint lithography technique, and the characteristics obtained up to now for the LC-DFB lasers fabricated for pumping Cesium atomic clocks. 550 μm long LC-DFB lasers, emitting at 894 μm, had 10 mA threshold...
Distributed feedback lasers with third-order surface gratings obtained by lateral corrugations of the ridge waveguide have been fabricated using low-cost nanoimprint lithography. The lasers, emitting in the 980 nm wavelength range exhibited stable single-longitudinal-mode operation with side-mode suppression ratios up to 50 dB.
The paper presents simulation results for laterally-corrugated ridge-waveguide distributed-feedback (DFB) semiconductor lasers emitting at 980 nm, along with measured results. The effect of the corrugation on the laser output characteristics is discussed. Almost 50 dB side-mode suppression ratio was achieved for the laterally-corrugated ridge waveguide DFB lasers fabricated using nano-imprint-lithography.
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