Normal vector tracing ultra-precision shape measurement method

摘要

Of two pairs of biaxial goniometers and a uniaxial straight-ahead stage, one pair of biaxial goniometers and the uniaxial straight-ahead stage are subjected to fully-closed feedback control (follow-up control) under which output from a QPD is directly input into an axis drive motor, and the remaining pair of biaxial goniometers are subjected to semi-closed feedback control (constant-value control), encoder outputs on all the axes and QPD output are acquired simultaneously, measurement point coordinates and normal vectors derived from the encoder outputs are corrected with the QPD output, thereby eliminating influence of steady-state deviation in a goniometer control system.

主权项

1. A normal vector tracing ultra-precision shape measurement method, comprising the steps of:
preparing at least two pairs of biaxial goniometers and a uniaxial straight-ahead stage changing a distance between rotation centers of the goniometers, wherein one pair of goniometers constitutes a sample system and holds an object to be measured at a movable part thereof, and the other pair of goniometers constitutes an optical system and has at a movable part thereof a light source and a light detector using a quartered photodiode (QPD) based on a null method; controlling the two pairs of biaxial goniometers to overlap completely a measurement beam emitted from the light source and a reflection beam reflected on the surface of the object to be measured; controlling the uniaxial straight-ahead stage to keep constant a light path length L between the light detector and the surface of the object to be measured; measuring a normal vector at an arbitrary measurement point on the surface of the object to be measured to determine the shape of the object to be measured; and subjecting of the two pairs of biaxial goniometers and the uniaxial straight-ahead stage, one pair of biaxial goniometers and the uniaxial straight-ahead stage to fully-closed feedback control (follow-up control) inputting under which output from the QPD directly into an axis drive motor, subjecting the remaining pair of biaxial goniometers to semi-closed feedback control (constant value control), acquiring simultaneously encoder outputs on all the axes and QPD output, and correcting measurement point coordinates and normal vectors derived from the encoder outputs with the QPD output, thereby eliminating influence of steady-state deviation in the goniometer control system.