Contact-based and spheroidal vibrational modes of a hexagonal monolayer of microspheres on a substrate

Author(s)

Vega-Flick, A; Duncan, RA; Wallen, SP; Boechler, N; Stelling, C; Retsch, M; Alvarado-Gil, JJ; Nelson, KA; Maznev, AA; ... Show more Show less

Abstract

© 2017 Elsevier B.V. We analytically study acoustic modes of a close-packed hexagonal lattice of spheres adhered to a substrate, propagating along a high-symmetry direction. The model, accounting for both normal and shear coupling between the spheres and between the spheres and the substrate, yields three contact-based vibrational modes involving both translational and rotational motion of the spheres. In addition to contact-based modes, we also study the effect of sphere–substrate and sphere–sphere contacts on spheroidal vibrational modes of the spheres using a perturbative approach. The sphere–substrate interaction results in a frequency upshift for the modes having a non-zero displacement at the contact point with the substrate as well as mode-splitting for some of the degenerate modes of the free sphere. Sphere–sphere interactions result in dispersion of spheroidal modes. Analytical dispersion relations for both contact-based and spheroidal modes are presented and compared with results obtained for a square lattice.

Date issued

2018

URI

https://hdl.handle.net/1721.1/133450

Department

Massachusetts Institute of Technology. Department of Chemistry

Journal

Wave Motion

Publisher

Elsevier BV