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Relativistic Models for a GAIA-Like Astrometry Mission

Published online by Cambridge University Press:  12 April 2016

F. de Felice ,
A. Vecchiato ,
B. Bucciarelli ,
M.G. Lattanzi  and
M. Crosta
F. de Felice
Affiliation:
Physics Department, University of Padova, I-35100
A. Vecchiato
Affiliation:
Physics Department, University of Padova, I-35100 Astronomy Department, University of Padova
B. Bucciarelli
Affiliation:
Astronomical Observatory of Torino, I-10025
M.G. Lattanzi
Affiliation:
Astronomical Observatory of Torino, I-10025
M. Crosta
Affiliation:
Astronomical Observatory of Torino, I-10025 Physics Department, University of Torino

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A non-perturbative general relativistic approach to global astrometry was developed by de Felice et al. (1998) to handle satellite astrometry data in a genuine relativistic framework. In this contribution, the framework above has been further exploited to account for stellar motions and parallax. Because of the relevance that accurate knowledge (to 10−5 or better) of the relativistic parameter γ has to fundamental physics, a Parametrized Post-Newtonian (PPN) model has also been implemented, which allows the direct estimation of γ along with the astrometric parameters. These models have been tested on end-to-end simulations of the mission GAIA. The results show that, within the limitation of the simulation and the assumptions of the adopted model, measurements accurate to 100 μarcsec of large arcs among stars repeated over a few years can be modelled to establish a dense reference frame with a precision of a few tens of μarcseconds. Moreover, our experiments indicate that γ can be estimated to better than 10−6.

Type
Section 3. Relativistic Considerations
Information
International Astronomical Union Colloquium , Volume 180: Towards Models and Constants for Sub-Microarcsecond Astrometry , March 2000 , pp. 314 - 319
Copyright
Copyright © US Naval Observatory 2000

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