phasenrückgewinnung

Phasenrückgewinnung, also known as phase recovery or phase retrieval, is a computational technique used to reconstruct the phase of a signal from its magnitude. In many imaging and signal processing applications, such as X-ray crystallography, microscopy, and holography, direct measurement of the phase is difficult or impossible. However, the phase information is crucial for reconstructing a complete and accurate representation of the object or signal. Phasenrückgewinnung algorithms aim to infer this missing phase information using a series of measurements of the signal's intensity, which is the square of its magnitude.

The core principle behind phasenrückgewinnung relies on the fact that the magnitude alone does not uniquely

Several phasenrückgewinnung algorithms exist, each with its own strengths and weaknesses. Popular methods include Gerchberg-Saxton, Fienup's