International audienceAtmospheric turbulence perturbates to a great extent the optical path of incoming light from outer space thereby limiting the resolution power of capturing devices. One of the most common techniques used in astronomical imaging to compensate for this perturbation is Adaptive Optics (AO). In this paper we explore the potential of Microcanonical Multiscale Formalism (MMF) for the reconstruction of the perturbated wavefront, from the low-resolution acquisition of the turbulent phase by a Hartmann-Shack wavefront sensor used in AO. In fact, turbulent flows, although chaotic in nature, are characterised by scale hierarchy and develop cascade like structures where transfer of energy takes place from one scale to the other. W...
Wave optics is used for modeling laser propagation through turbulence, and with laser technology mat...
The presence of atmospheric turbulence heavily affects the resolution of images formed on large grou...
Observations of the interstellar medium (ISM) show a complex density and velocity structure, which i...
International audienceAtmospheric turbulence perturbates to a great extent the optical path of incom...
International audienceAdaptive Optics (AO) refers to (servo-control) methods used in astronomical im...
International audienceWe introduce a new approach to wavefront phase reconstruction in Adaptive Opti...
In this thesis, we introduce a new approach to wavefront phase reconstruction in Adaptive Optics (AO...
International audienceTurbulence in the Earth's atmosphere interferes with the propagation of planar...
Motivated by the increasing importance of Adaptive Optics (AO) systems for improving the real resolu...
Simulating the turbulence effect on ground telescope observations is of fundamental importance for t...
Dans cette thèse nous introduisons une approche nouvelle pour la reconstruction d’un front d’ondes e...
Motivated by the increasing importance of adaptive optics (AO) systems for improving the real resolu...
Simulating the turbulence effect on ground telescope observations is of fundamental importance for t...
International audienceObservations of the interstellar medium (ISM) show a complex density and veloc...
Wave optics is used for modeling laser propagation through turbulence, and with laser technology mat...
The presence of atmospheric turbulence heavily affects the resolution of images formed on large grou...
Observations of the interstellar medium (ISM) show a complex density and velocity structure, which i...
International audienceAtmospheric turbulence perturbates to a great extent the optical path of incom...
International audienceAdaptive Optics (AO) refers to (servo-control) methods used in astronomical im...
International audienceWe introduce a new approach to wavefront phase reconstruction in Adaptive Opti...
In this thesis, we introduce a new approach to wavefront phase reconstruction in Adaptive Optics (AO...
International audienceTurbulence in the Earth's atmosphere interferes with the propagation of planar...
Motivated by the increasing importance of Adaptive Optics (AO) systems for improving the real resolu...
Simulating the turbulence effect on ground telescope observations is of fundamental importance for t...
Dans cette thèse nous introduisons une approche nouvelle pour la reconstruction d’un front d’ondes e...
Motivated by the increasing importance of adaptive optics (AO) systems for improving the real resolu...
Simulating the turbulence effect on ground telescope observations is of fundamental importance for t...
International audienceObservations of the interstellar medium (ISM) show a complex density and veloc...
Wave optics is used for modeling laser propagation through turbulence, and with laser technology mat...
The presence of atmospheric turbulence heavily affects the resolution of images formed on large grou...
Observations of the interstellar medium (ISM) show a complex density and velocity structure, which i...