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Mid-infrared light emission > 3 um wavelength from tensile strained GeSn microdisks

GeSn alloys with Sn contents of 8.4 % and 10.7 % are grown pseudomorphically on Ge buffers on Si (001) substrates. The alloys as-grown are compressively strained, and therefore indirect bandgap. Undercut GeSn on Ge microdisk structures are fabricated and strained by silicon nitride stressor layers, which leads to tensile strain in the alloys, and direct bandgap photoluminescence in the 3– 5 um gas sensing window of the electromagnetic spectrum. The use of pseudomorphic layers and external stress mitigates the need for plastic deformation to obtain direct bandgap alloys. It is demonstrated, that the optically pumped light emission overlaps with the methane absorption lines, suggesting that GeSn alloys are well suited for mid-infrared integrated gas sensors on Si chips.

Publication: Millar, R. W., D. C. S. Dumas, K. F. Gallacher, P. Jahandar, C. MacGregor, M. Myronov and D. J. Paul (2017). "Mid-infrared light emission > 3 um wavelength from tensile strained GeSn microdisks." Optics Express 25(21): 25374-25385.

DOI: https://doi.org/10.1364/OE.25.025374

Mon 16 Oct 2017, 14:58 | Tags: Research