Iterative correction method of a retrace error in interferometry

In interferometer measurements, the inconsistency of the optical range through which the reference and test lights pass introduces a retrace error in the phase measurement. In this study, we propose an iterative retrace error correction method in interferometry. A black-box model is established based on the linear and squared relationships between the retrace error and the tilt of the testing surface. The error correction phase is obtained using the least-squares method; thereafter, the global tilt is determined to iteratively correct the retrace error. The root mean square (RMS) of the residuals was > 3.2 x 10(-5)lambda, >6.4 x 10(-3)lambda, and >1.4 x 10(-3)lambda in the simulation, experimentally computed retrace error correction in the planar measurement, and spherical measurement, respectively, proving that the retrace error can be effectively corrected.

Automated summary

In this study, an iterative retrace error correction method in interferometry was proposed. A black-box model was established based on the relationship between the retrace error and the tilt of the testing surface. Error correction phase was obtained using the least-squares method, and global tilt was determined to iteratively correct the retrace error. The results demonstrate the effective correction of the retrace error.