Abstract
We present an active null test system adapted to test lenses and wavefronts with complex shapes and strong local deformations. This system provides greater flexibility than conventional static null tests that match only a precisely positioned, individual wavefront. The system is based on a cylindrical Shack–Hartmann wavefront sensor, a commercial liquid crystal programmable phase modulator (PPM), which acts as the active null corrector, enabling the compensation of large strokes with high fidelity in a single iteration, and a spatial filter to remove unmodulated light when steep phase changes are compensated. We have evaluated the PPM’s phase response at and checked its performance by measuring its capability to generate different amounts of defocus aberration, finding root mean squared errors below for spherical wavefronts with peak-to-valley heights of up to , which stands as the limit from which diffractive artifacts created by the PPM have been found to be critical under no spatial filtering. Results of a null test for a complex lens (an ophthalmic customized progressive addition lens) are presented and discussed.
© 2010 Optical Society of America
Full Article | PDF ArticleMore Like This
Pedro M. Prieto, Enrique J. Fernández, Silvestre Manzanera, and Pablo Artal
Opt. Express 12(17) 4059-4071 (2004)
Shuai Xue, Shanyong Chen, Guipeng Tie, and Ye Tian
Opt. Express 27(6) 8414-8428 (2019)
Xing Zhong, Chunyu Liu, and Guang Jin
Appl. Opt. 53(1) 22-26 (2014)