Comparison between a model-based and a conventional pyramid sensor reconstructor

Abstract: A model of a non-modulated pyramid wavefront sensor (P-WFS) based on Fourier optics has been presented. Linearizations of the model represented as Jacobian matrices are used to improve the P-WFS phase estimates. It has been shown in simulations that a linear approximation of the P-WFS is sufficient in closed-loop adaptive optics. Also a method to compute model-based synthetic P-WFS command matrices is shown, and its performance is compared to the conventional calibration. It was observed that in poor visibilit… Show more

“…Let us imagine that the wrapped phase, φ w (x, y) (experimentally obtained in a PS-PDI when aberrations were induced with a deformable mirror) defined in the interval [-π π] within a circular pupil, P(x, y) be located at the back focal plane of a lens with a focal length of 1 m (physically not present) that focusses light onto a pyramidal prism (physically not present) with its phase, T(X, Y) [16,18] as illustrated in Fig. 1.…”

Virtual pyramid wavefront sensor for phase unwrapping

“…Let us imagine that the wrapped phase, φ w (x, y) (experimentally obtained in a PS-PDI when aberrations were induced with a deformable mirror) defined in the interval [-π π] within a circular pupil, P(x, y) be located at the back focal plane of a lens with a focal length of 1 m (physically not present) that focusses light onto a pyramidal prism (physically not present) with its phase, T(X, Y) [16,18] as illustrated in Fig. 1.…”

Virtual pyramid wavefront sensor for phase unwrapping

“…The pyramid sensors, classical PWFS and RS, have shown to have excellent sensitivity, but low dynamical range [3]. The classical PWFS has less optical components compared to RS, but it suffers from diffraction effects deteriorating its performance [4]. The third sensor, MODS, has been introduced to increase the dynamical range of pyramid sensors while maintaining many beneficial properties of PWFS.…”

Extreme adaptive optics simulations for EPICS

“…As a result, RMS and PV of this phase screen equal respectively to 1.14λ and 5.6λ. The closed-loop correction operates by using the linear reconstruction theory 11 and using the last three approaches to obtain the measurement signals. A liquid-crystal spatial light modulator (LCSLM) is acted as a wavefront corrector.…”

“…There are four choice of the normalization factor: (1) The product of average intensity and a factor at the input pupil 9,10 . (2) The average of total energy at the CCD detector 11,12 . (3) The averaging total energy in the effective image of pupil plane detected by the CCD 8 .…”

Analysis on measured signal retrieval approaches in non-modulation pyramid wavefront sensor