Theoretical and experimental investigations of acoustic signatures of materials using scanning microscopes with variable lens illumination

Abstract: The most important part of a scanning acoustic microscope system is the wide-opening-angle lens which could have many shapes and sizes. Such lenses include several interfering surface modes which may obscure the measured acoustic properties. In this paper, we investigate the conventional spherical wide-angle lens whose central part has been covered by a circular aperture stop of varying diameter, D, to absorb the energy of acoustic modes. The influence of increasing D of such absorbers on the acoustic signatur… Show more

“…The removal of surface modes has been applied to lenses with a large half-opening angle (50°) whose center was occulted by stops of variable diameters. The methodology consists of covering, by an absorbing material of circular form, the central part of the lens [6] then calculating R(θ) and V(z) for each occulted angle, θ occ .…”

Study of Biomaterials Acoustic Signature Using Annular Lenses

“…The removal of surface modes has been applied to lenses with a large half-opening angle (50°) whose center was occulted by stops of variable diameters. The methodology consists of covering, by an absorbing material of circular form, the central part of the lens [6] then calculating R(θ) and V(z) for each occulted angle, θ occ .…”

Study of Biomaterials Acoustic Signature Using Annular Lenses

Investigation of Rayleigh wave attenuation via annular lenses in acoustic microscopy

Investigation of Ag Doping Effects on Na1.5Co2O4 Elastic Parameters