OPTICAL ALIGNMENT APPARATUS AND METHODOLOGY FOR A VIDEO BASED METROLOGY TOOL

摘要

A system for quickly aligning a test optic with various components of an optical metrology tool. A collimated target is presented to a beamsplitting reference surface located on a positioning system for holding and manipulating the test optic. Video images of the target and its reflection from the reference surface are displayed for analysis and visualization so that any tilt between the reference surface and the optical axis of the collimated beam can be removed to align the test optic. After alignment, the video based system is used to quickly measure and display in real-time a variety of performance characteristics of optical components such as lenses. The metrology system is under the control of a computer which uses a windowing software program to provide the user with a graphical user interface by which the various components of the system and test lenses may be aligned and characterized.

主权项

1. Apparatus for testing optical components in real-time, said apparatus having an optical axis and elements arranged thereon comprising:
a plane parallel beamsplitter positioned along the optical axis and having a reflective surface and a reference surface; a manipulator for holding and positioning an optical component for testing so that a reference surface thereof can be placed in contact with said beamsplitter reference surface and moved with respect to the optical axis; a target positioned along the optical axis, said target comprising a flat opaque disk having a central transmissive pattern surrounded by a background that is at least partially reflective and faces said reflective surface of said beamsplitter; a source for illuminating said target; and a collimator for forming a collimated image of said target for presentation to said optical component such that said collimated image is partially reflected by said reflective beamsplitter surface back through said collimated lens and onto said reflective background of said target after which it is reflected for travel through said optical component as a retroreflected image of said target and partially transmitted by said beamsplitter to be formed by said optical component as a direct image of said target, said direct and retroreflected images being inverted and reverted about said optical axis with respect to one another with the separation between them being proportional to any misalignment between said optical component reference surface and the optical axis of said collimated image; and a video analyzer for viewing said direct and retroreflected images of said target so that the optical component can be aligned with the optical axis of said collimated image.