Mario Gilberto Lattanzi scite author profile

The Astrometric Gravitation Probe mission is a modern version of the 1919 Dyson-Eddington-Davidson experiment, based on a space-borne telescope with a permanent built-in eclipse, provided by a coronagraphic system. The expected improvement on experimental bounds to General Relativity and competing gravitation theories is by at least two orders of magnitude. The measurement principle is reviewed, in particular the principle of Fizeaulike combination of a set of individual inverted coronagraphs simultaneously feeding a common high resolution telescope. Also, the payload has a dual field of view property, in order to support simultaneous observations of stellar fields either very close, or far away, from the Sun, i.e. fields affected by either high or low light bending. We discuss a set of solutions introduced in the optical design to improve on technical feasibility and robustness of the optical performance against perturbations, in particular induced by manufacturing and alignment tolerances, and launch stresses.

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The Mpi + Cuda Gaia Avu–Gsr Parallel Solver Towards Next-Generation Exascale Infrastructures

Cesare¹,

Vecchiato²,

Lattanzi³

et al. 2023

Preprint

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Mario Gilberto Lattanzi

The Ray Tracing Analytical Solution within the RAMOD framework. The case of a Gaia-like observer

Progress on the Astrometric Gravitation Probe design

The Mpi + Cuda Gaia Avu–Gsr Parallel Solver Towards Next-Generation Exascale Infrastructures

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