Parametric study of single-axis acoustic levitation

Remarkable enhancement of the single-axis acoustic levitation force is achi eved by properly curving the surface and enlarging the section of the refle ctor so as to levitate high density material like tungsten (rho (s)=18.92 g /cm(3)). A two-cylinder model incorporating the boundary element method sim ulations is presented for systematic study of the relationship between levi tation capabilities and geometric parameters. The model proves to be succes sful in predicting resonant modes and explaining deviation of the levitated samples near the reflector and driver. The dependence of levitation force on resonant mode, reflector section radius R-b and curvature radius R is re vealed and summarized, which agrees with the experiment in principle and su ggests that a reflector with large R-b and small R (when R-b/lambda greater than or equal to0.982) working under mode 1 assures better levitation capa bilities. (C) 2001 American Institute of Physics.