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The numerical calculation of passive acoustic graphene nanosensor parameters is presented. The spatial deformation of graphene plate ander external acoustic forces are investigated.
The study presents information regarding detection of acoustic waves processes using graphene nanosensor. The scheme of passive acoustic device is presented and discuss in full details in this paper. The alteration of graphene nanosensor geometry by means of external acoustic pressure has been modeled for determination the spatial position of detectable object.
The model of dynamic characteristics of ferroelectric material is considered. The numerical modeling achieved the satisfactory agreement with experimental data. It has been shown that the maximum of a switching electric current as well as the magnitude which inversely proportional to a switching time increases gradually since some value of external applied voltage. Conditions of an electroluminescence...
Absorption vibronic spectra are investigated for molecular crystals with two molecules in an elementary cell that corresponds to two-layer graphene. The absorption vibronic spectra, their intensities, frequencies and polarizations are calculated for molecular crystals containing two molecules in an elementary cell or two-layer graphene.
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