High-order-helix point spread functions for monocular three-dimensional imaging with superior aberration robustness


An approach for designing purely refractive optical elements that generate engineered, multi-order-helix point spread functions (PSFs) with large peak separation for passive, optical depth measurement is presented. The influence of aberrations on the PSF’s rotation angle, which limits the depth retrieval accuracy, is studied numerically and analytically. It appears that only Zernike modes with an azimuthal index that is an integer multiple of the number of PSF peaks introduce PSF rotation, and hence a depth estimation errors. This implies that high-order-helix designs have superior robustness with respect to aberrations. This is experimentally demonstrated by imaging an extended scene in the presence of severe system aberrations using novel, cost-e cient phase elements based on UV-replication on the wafer-scale.ImPhys/Imaging Physic

Similar works

Full text


TU Delft Repository

Full text is not available
oai:tudelft.nl:uuid:82e8359b-c8d9-42ac-aed0-99a457364483Last time updated on 6/17/2018

This paper was published in TU Delft Repository.

Having an issue?

Is data on this page outdated, violates copyrights or anything else? Report the problem now and we will take corresponding actions after reviewing your request.