Title :
1 GHz differential phase acoustic lens design for surface and subsurface applications
Author :
Routh, H.F. ; Sivers, E.A. ; Bertoni, H.L. ; Khuri-Yakub, B.T. ; Waters, D.D.
Author_Institution :
Bio-Imaging Res. Inc., Lincolnshire, IL, USA
Abstract :
The authors discuss the design of a 1-GHz differential phase acoustic lens for topographical use, and investigate other operating modalities of this design which allow surface and close to surface velocity perturbations to be investigated. Such measurements will give information on surface residual stress and material properties. Computer simulations of the wave propagation for both focused and defocused lenses demonstrate the various capabilities of this lens. Modifications to the design, which is for an isotropic material (e.g. quartz), taking into account a lens rod fabricated from anisotropic materials (e.g. sapphire) are also addressed. The electronics and scanning stages necessary to complete the design of this precision microscope are described
Keywords :
acoustic devices; acoustic imaging; acoustic microscopy; internal stresses; stress measurement; surface topography measurement; 1 GHz; anisotropic materials; computer simulation; defocused lenses; differential phase acoustic lens design; electronics; isotropic material; lens rod; material properties; precision microscope; quartz; sapphire; scanning stages; subsurface applications; surface residual stress; surface velocity perturbations; topographical use; wave propagation; Acoustic measurements; Acoustic propagation; Computer simulation; Lenses; Material properties; Optical design; Residual stresses; Stress measurement; Surface acoustic waves; Surface topography;
Conference_Titel :
Ultrasonics Symposium, 1990. Proceedings., IEEE 1990
Conference_Location :
Honolulu, HI
DOI :
10.1109/ULTSYM.1990.171499
