Abstract
In order to achieve nanometer accuracy, metrologists need to identify the sources of
error and develop solutions to eradicate or minimize their effects. A stabilized low power
dual-frequency laser heterodyne interferometer (ZMI-1000A) designed to measure linear and
angular displacement with nominal measurement resolution 1.24 nm and 0.0025 arcsec,
respectively, is used to achieve measurement of displacements over different travelling
axes by comparison with the electronically reference measurements of the stage over wide
range 500 mm. The repeatability and reversal error of linear stage over the working
distance have agreed opto-electronically and the positioning uncertainty been reduced. A
multivariable framework was implemented for the x-axis due to the cross
coupling between the forward and backward course of the linear stage. Thermal error
reduction is achieved using environmental temperature control (20 ± 0.2 °C)
to help reduce thermal errors.
Subject
Safety, Risk, Reliability and Quality
Cited by
2 articles.
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