Abstract
We present a method of using pairs of rotating Zernike phase plates as a precompensation unit to correct the higher-order aberrations (typically coma and trefoil) in the human eye. The rotational properties of the Zernike polynomials allow compensation of variable higher-order aberrations of the human eye with a small number of specially designed Zernike phase plates.
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Acknowledgements
The authors thank Professor L. Thibos from Indiana University (Indiana, USA) for kindly offering the statistical eye aberration model and also Heidelberg Engineering GmbH (Heidelberg, Germany) for technical support. The authors would also like to thank the anonymous reviewers for critical and helpful comments.
Notes
Note
1. and
are the standard Zernike coefficients according to the ANSI standard Citation17.