| Abstract: | ![]()
A broadening and splitting of the axial spread function is observed when high-numerical-aperture (NA) oil-immersion objectives are used on a confocal microscope to examine dielectric interfaces when the refractive index below the boundary is lower than the NA of the objective. The phenomena is due to total internal reflection probably as a consequence of the Goos-Hänchen shift. If total internal reflection occurs when undertaking confocal microscopy, this shift creates obvious problems when the optical sectioning capabilities must be optimal in reflectance mode and more subtle difficulties can arise when examining fluorescent emission. Alternatively, deliberately inducing total internal reflection can be used to estimate the refractive index in component parts within foams, emulsions and aerated specimens where such measurements can be relatively difficult to make by other means. Furthermore, the examination of total internal reflection with a confocal microscope permits the phenomena of total internal reflection itself to be probed with very high illumination intensities without disturbing the boundary conditions with an external probe. Finally, other changes in the apparent position of the focus were noted to occur when high-NA oil-immersion objectives are used to examine specimens such as metal mirrors. |
