M. El Kurdi, M. de Kersauson, S. David, X. Checoury, G. Beaudoin, R. Jakomin, I. Sagnes, S. Sauvage, G. Fishman, P. Boucaud
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Stimulated emission in single tensile-strained Ge photonic wire
We have investigated the room temperature optical properties of 50 µm length, 11 µm large and 500 nm thick tensile-strained germanium photonic wires. Tensile strain is transferred in the germanium layer using a Si3N4 film stressor. An optical recombination of tensile-strained germanium involving light hole band is observed around 1690 nm at room temperature corresponding to a strain magnitude around 0.4%. We show that the waveguided emission associated with a single tensile-strained germanium wire increases superlinearly as a function of the illuminated length. A decrease of the spectral broadening is observed as the pump intensity is increased. A 80 cm−1 modal optical gain is derived from the variable strip length method.
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