Accurate strain measurements in highly strained Ge microbridges

A. Chelnokov; A. Gassenq; D. Rouchon; F. Rieutord; G. Osvaldo Dias; H. Sigg; I. Duchemin; J. Escalante; J. Faist; J-M. Hartmann

arxiv: 1604.04391 · v1 · pith:4WEJGQ2Dnew · submitted 2016-04-15 · ❄️ cond-mat.mtrl-sci

Accurate strain measurements in highly strained Ge microbridges

A. Gassenq , S. Tardif , K.Guilloy , G. Osvaldo Dias , N. Pauc , I. Duchemin , D. Rouchon , J-M. Hartmann

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J. Widiez J. Escalante Y-M. Niquet R. Geiger T. Zabel H. Sigg J. Faist A. Chelnokov F. Rieutord V. Reboud V. Calvo

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classification ❄️ cond-mat.mtrl-sci

keywords strainramanaccuratehighlinearmicrobridgesrelationbandgap

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Ge under high strain is predicted to become a direct bandgap semiconductor. Very large deformations can be introduced using microbridge devices. However, at the microscale, strain values are commonly deduced from Raman spectroscopy using empirical linear models only established up to 1.2% for uniaxial stress. In this work, we calibrate the Raman-strain relation at higher strain using synchrotron based microdiffraction. The Ge microbridges show unprecedented high tensile strain up to 4.9 % corresponding to an unexpected 9.9 cm-1 Raman shift. We demonstrate experimentally and theoretically that the Raman strain relation is not linear and we provide a more accurate expression.

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Accurate strain measurements in highly strained Ge microbridges

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