Your search keyword '"Morara, P."' showing total 4 results

1. Aberration measurement and correction on a large field of view in fluorescence microscopy

Author

Furieri, Tommaso, Ancora, Daniele, Calisesi, Gianmaria, Morara, Stefano, Bassi, Andrea, and Bonora, Stefano

Subjects

Physics - Optics, Physics - Computational Physics, Physics - Instrumentation and Detectors, Physics - Medical Physics

Abstract

The aberrations induced by the sample and/or by the sample holder limit the resolution of optical microscopes. Wavefront correction can be achieved using a deformable mirror with wavefront sensorless optimization algorithms but, despite the complexity of these systems, the level of correction is often limited to a small area in the field of view of the microscope. In this work, we present a plug and play module for aberration measurement and correction. The wavefront correction is performed through direct wavefront reconstruction using the spinning-pupil aberration measurement and controlling a deformable lens in closed loop. The lens corrects the aberrations in the center of the field of view, leaving residual aberrations at the margins, that are removed by anisoplanatic deconvolution. We present experimental results obtained in fluorescence microscopy, with a wide field and a light sheet fluorescence microscope. These results indicate that detection and correction over the full field of view can be achieved with a compact transmissive module placed in the detection path of the fluorescence microscope., Comment: 7 pages, 5 figures

Published

2021

2. Solving XCSP problems by using Gecode

Author

Morara, Massimo, Mauro, Jacopo, and Gabbrielli, Maurizio

Subjects

Computer Science - Programming Languages

Abstract

Gecode is one of the most efficient libraries that can be used for constraint solving. However, using it requires dealing with C++ programming details. On the other hand several formats for representing constraint networks have been proposed. Among them, XCSP has been proposed as a format based on XML which allows us to represent constraints defined either extensionally or intensionally, permits global constraints and has been the standard format of the international competition of constraint satisfaction problems solvers. In this paper we present a plug-in for solving problems specified in XCSP by exploiting the Gecode solver. This is done by dynamically translating constraints into Gecode library calls, thus avoiding the need to interact with C++., Comment: 5 pages, http://ceur-ws.org/Vol-810 CILC 2011

Published

2011

3. Consistent Perturbative Light Front Formulation of Yang-Mills Theories

Author

Morara, M., Soldati, R., and McCartor, G.

Subjects

High Energy Physics - Theory

Abstract

It is shown how to obtain the consistent light front form quantization of a non-Abelian pure Yang-Mills theory (gluondynamics) in the framework of the standard perturbative approach. After a short review of the previous attempts in the light cone gauge $A_-=0$, it is explained how the difficulties can be overcome after turning to the anti light cone gauge $A_+=0$. In particular, the generating functional of the renormalized Green's functions turns out to be the same as in the conventional instant form approach, leading to the Mandelstam-Leibbrandt prescription for the free gluon propagator., Comment: 7 pages and uses aipproc.sty

Published

1999

4. Consistent perturbative light-front formulation of quantum electrodynamics

Author

Morara, Michele and Soldati, Roberto

Subjects

High Energy Physics - Theory

Abstract

A new light-front formulation of Q.E.D. is developed, within the framework of standard perturbation theory, in which $x^+$ plays the role of the evolution parameter and the gauge choice is $A_+=0$ (light-front "temporal" gauge). It is shown that this formulation leads to the Mandelstam-Leibbrandt causal prescription for the non-covariant singularities in the photon propagator. Furthermore, it is proved that the dimensionally regularized one loop off-shell amplitudes exactly coincide with the correct ones, as computed within the standard approach using ordinary space-time coordinates., Comment: PlainTeX, 29 pages, 5 Postscript figures

Published

1998