Abstract: Frequency-scanning interferometry is used for measuring test objects having multiple surface regions. The regions are distinguished and can be measured based on different measuring criteria. Interference data is gathered for the imageable portion of the test object from a plurality of interference patterns taken over substantially the same imageable portion at different measuring beam frequencies. The interference data is evaluated to determine topographical measures of associated points on the test object. The topographical measures are compared against a benchmark to distinguish between points on the test object that are within a first of the surface regions from points on a boundary separating the first surface region from one or more other surface regions of the imageable portion of the test object. The interference data of points within the first surface region are further evaluated to a higher accuracy.

Abstract: The present invention provides methods for forming convex and concave elements on the ends of supporting members. A convex element may be formed by forming a droplet on the end of the supporting member, then curing the droplet. The size of the droplet may be controlled using evaporation of a solvent from the droplet. In another aspect of the invention, an optical element may be formed by forming a droplet on the end of the supporting member, contacting the droplet with a mold, and curing the droplet, thereby forming an element with a curvature opposite that of the mold. When the supporting member is an optical fiber, the elements formed by the methods of the present invention are useful as lenses and mirrors in micro-optic devices.

Abstract: The present invention relates generally to UV (ultraviolet) photosensitive bulk glass, and particularly to batch meltable alkali boro-alumino-silicate and germanosilicate glasses. The photosensitive bulk glass of the invention exhibits photosensitivity to UV wavelengths below 300 nm. The photosensitivity of the alkali boro-alumino-silicate and germanosilicate bulk glasses to UV wavelengths below 300 nm provide for the making of refractive index patterns in the glass. With a radiation source below 300 nm, such a laser, refractive index patterns are formed in the glass. The inventive photosensitive optical refractive index pattern forming bulk glass allows for the formation of patterns in glass and devices which utilize such patterned glass.

Abstract: A method for patterning an optical property on a optical element that includes selectively applying an energy source to an optical element to pattern an optical property thereon. A method is disclosed where the optical element includes metal halide particles dispersed in the optical element. A method is also disclosed where localized heating includes pre-heating the optical element and heating a small region of the optical element with sufficient energy for metal halide particles to relax in shape. An additional method is disclosed for patterning an optical property on an optical element that includes fusing pieces of optical element containing the optical property with pieces of optical element without the optical property by heat treatment.