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The Mercury Orbiter Radio Science Experiment (MORE) of the ESA mission BepiColombo will provide an accurate estimation of Mercury’s gravity field and rotational state, improved tests of general relativity, and a novel deep space navigation system. The key experimental setup entails a highly stable, multi-frequency radio link in X and Ka band, enabling two-way range rate measurements of 3 micron/s at nearly all solar elongation angles. In addition, a high chip rate, pseudo-noise ranging system has already been tested at 1-2 cm accuracy. The tracking data will be used together with the measurements of the Italian Spring Accelerometer to provide a pseudo drag free environment for the data analysis. We summarize the existing literature published over the past years and report on the overall configuration of the experiment, its operations in cruise and at Mercury, and the expected scientific results.

Gravity, Geodesy and Fundamental Physics with BepiColombo’s MORE Investigation

L. Iess;S. W. Asmar;P. Cappuccio;G. Cascioli;F. De Marchi;I. di Stefano;A. Genova;N. Ashby;J. P. Barriot;P. Bender;C. Benedetto;J. S. Border;F. Budnik;S. Ciarcia;T. Damour;V. Dehant;G. Di Achille;A. Di Ruscio;A. Fienga;R. Formaro;S. Klioner;A. Konopliv;A. Lemaître;F. Longo;M. Mercolino;G. Mitri;V. Notaro;A. Olivieri;M. Paik;A. Palli;G. Schettino;D. Serra;L. Simone;G. Tommei;P. Tortora;T. Van Hoolst;D. Vokrouhlický;M. Watkins;X. Wu;M. Zannoni

2021-01-01

Abstract

The Mercury Orbiter Radio Science Experiment (MORE) of the ESA mission BepiColombo will provide an accurate estimation of Mercury’s gravity field and rotational state, improved tests of general relativity, and a novel deep space navigation system. The key experimental setup entails a highly stable, multi-frequency radio link in X and Ka band, enabling two-way range rate measurements of 3 micron/s at nearly all solar elongation angles. In addition, a high chip rate, pseudo-noise ranging system has already been tested at 1-2 cm accuracy. The tracking data will be used together with the measurements of the Italian Spring Accelerometer to provide a pseudo drag free environment for the data analysis. We summarize the existing literature published over the past years and report on the overall configuration of the experiment, its operations in cruise and at Mercury, and the expected scientific results.

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	Anno
	
			2021
		
	Codice DOI
	
			https://dx.doi.org/10.1007/s11214-021-00800-3
		
	Tutti gli autori
	
			Iess, L.; Asmar, S. W.; Cappuccio, P.; Cascioli, G.; De Marchi, F.; di Stefano, I.; Genova, A.; Ashby, N.; Barriot, J. P.; Bender, P.; Benedetto, C.; Border, J. S.; Budnik, F.; Ciarcia, S.; Damour, T.; Dehant, V.; Di Achille, G.; Di Ruscio, A.; Fienga, A.; Formaro, R.; Klioner, S.; Konopliv, A.; Lemaître, A.; Longo, F.; Mercolino, M.; Mitri, G.; Notaro, V.; Olivieri, A.; Paik, M.; Palli, A.; Schettino, G.; Serra, D.; Simone, L.; Tommei, G.; Tortora, P.; Van Hoolst, T.; Vokrouhlický, D.; Watkins, M.; Wu, X.; Zannoni, M.
		
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/1082238

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