Uniaxially stressed germanium with fundamental direct band gap

A. Chelnokov; A. Gassenq; D. Rouchon; E. Marin; F. Rieutord; G. Osvaldo Diaz; H. Sigg; I. Duchemin; J. Escalante; J. Faist

arxiv: 1603.03454 · v1 · pith:BV7M7P3Pnew · submitted 2015-12-10 · ❄️ cond-mat.mtrl-sci · physics.optics

Uniaxially stressed germanium with fundamental direct band gap

R. Geiger , T. Zabel , E. Marin , A. Gassenq , J.-M. Hartmann , J. Widiez , J. Escalante , K. Guilloy

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N. Pauc D. Rouchon G. Osvaldo Diaz S. Tardif F. Rieutord I. Duchemin Y.-M. Niquet V. Reboud V. Calvo A. Chelnokov J. Faist H. Sigg

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classification ❄️ cond-mat.mtrl-sci physics.optics

keywords bandstraindirectcrossoverfundamentalgermaniumphotoluminescencetemperature-dependent

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We demonstrate the crossover from indirect- to direct band gap in tensile-strained germanium by temperature-dependent photoluminescence. The samples are strained microbridges that enhance a biaxial strain of 0.16% up to 3.6% uniaxial tensile strain. Cooling the bridges to 20 K increases the uniaxial strain up to a maximum of 5.4%. Temperature-dependent photoluminescence reveals the crossover to a fundamental direct band gap to occur between 4.0% and 4.5%. Our data are in good agreement with new theoretical computations that predict a strong bowing of the band parameters with strain.

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Uniaxially stressed germanium with fundamental direct band gap

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