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We describe modifications to the recently demonstrated vapour-phase-transported laser to reduce the parasitic capacitance by an order of magnitude, and increase the 3 dB bandwidth for CW 1.52 μm lasers to 8 GHz. The parasitic and nonlinear limitations to this bandwidth are discussed.
A new 1.55 μm InGaAsP buried heterostructure laser has been fabricated using a hydride vapour phase epitaxial regrowth technique. Thresholds as low as 15 mA have been obtained. In addition, improved high-frequency modulation characteristics have been observed resulting from the lowdoped VPE transported material, with 3 dB detected bandwidths out to ~4.5 GHz.
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