1 research outputs found
Thickness-Dependent Phonon Renormalization and Enhanced Raman Scattering in Ultrathin Silicon Nanomembranes
We
report on the thickness-dependent Raman spectroscopy of ultrathin
silicon (Si) nanomembranes (NMs), whose thicknesses range from 2 to
18 nm, using several excitation energies. We observe that the Raman
intensity depends on the thickness and the excitation energy due to
the combined effects of interference and resonance from the band-structure
modulation. Furthermore, confined acoustic phonon modes in the ultrathin
Si NMs were observed in ultralow-frequency Raman spectra, and strong
thickness dependence was observed near the quantum limit, which was
explained by calculations based on a photoelastic model. Our results
provide a reliable method with which to accurately determine the thickness
of Si NMs with thicknesses of less than a few nanometers