Vibrational modes of GaN nanowires in the gigahertz range

• Published in: Nanotechnology Vol. 23; no. 49; p. 495709
• Main Authors: Johnson, W L, Kim, S A, Geiss, R, Flannery, C M, Bertness, K A, Heyliger, P R
• Format: Journal Article
• Language: English
• Published: England 14.12.2012
• Subjects: Arrays; Computer Simulation; Displacement; Gallium - chemistry; Gallium nitrides; Mathematical analysis; Mathematical models; Microwaves; Models, Chemical; Nanostructures - chemistry; Nanostructures - ultrastructure; Nanowires; Particle Size; Scattering, Radiation; Spectra; Vibration; Wavenumber
• ISSN: 0957-4484; 1361-6528
• DOI: 10.1088/0957-4484/23/49/495709

Brillouin-light-scattering measurements and finite-element modeling of vibrational spectra in the range of 5-40 GHz are presented for an array of monocrystalline GaN nanowires with hexagonal cross sections. Analysis of the spectra is substantially complicated by the presence of a distribution of nanowire diameters. The measurements and calculations reveal a variety of modes with simple flexural, higher-order flexural, approximately 'plane-strain', approximately longitudinal and torsional displacement patterns that are similar to the corresponding modes of isotropic cylinders. The largest peaks in the spectra with acoustic angular wavenumbers in the range of 4 to ~15 μm(-1) were determined to arise from modes with relatively large transverse displacements, consistent with inelastic light scattering arising predominantly from surface ripple. These dominant modes have finite frequencies in the limit of zero wavenumber, corresponding to transverse standing waves. At higher wavenumbers, the spectra provide evidence for increased scattering through elasto-optic coupling, especially with respect to the emergence of a peak from a mode analogous to the longitudinal guided modes of thin films.