Total internal reflection light modulating microstructure devices

Abstract

A light modulating switch ( ) including a switching element ( ) having a first portion ( ) of electro-optic material to which first and second electrodes ( ) are associated. A second portion ( ) is composed of material having an index of refraction matching that of the first portion ( ) when no voltage is applied to electro-optically activate the first portion ( ), but the index of refraction of the second portion ( ) is less than the index of refraction of the first portion ( ) when the first portion ( ) is electro-optically activated by application of voltage to the electrodes ( ). The first and second portions ( ) are in close conjunction with each other such that a TIR boundary ( ) is formed at the junction of the first and second portions ( ) and the switching element ( ) is oriented with respect to at least one incident light beam ( ) such that the incident light beam ( ) enters the first portion ( ) and strikes the boundary ( ) at an angle such that the light beam ( ) is totally reflected internally when the first portion ( ) is electro-optically activated, but which will pass unreflected through the boundary ( ) when the first portion ( ) is not electro-optically activated. The thickness of the second portion ( ) is preferably reduced by removal of a step region ( ) so that electric field lines within the active first portion ( ) are more narrowly directed and the TIR boundary ( ) is flatter and more regular.