On Fourier Phase Retrieval from Differential Intensity Measurements with Applications to Wavefront Sensing

In this paper, we consider Fourier phase retrieval from differential intensity measurements, i.e., the problem of determining the phase of a complex-valued function from a series of intensity measurements differing only by slight modulations in Fourier domain.

These modulations may be induced by optical elements such as prisms or phase plates, or via spatial-light modulators.

Generalizing the principles behind the transport of intensity equation, we show that given such differential intensity measurements, the phase can be determined as the solution of certain partial differential or integro-differential equations.

This is then used to design efficient reconstruction algorithms for a number of Fourier-type wavefront sensors, such as the pyramid wavefront sensor, commonly used in adaptive optics.

Numerical experiments illustrate the usefulness of our proposed approach.