000003676 001__ 3676
000003676 005__ 20190109131412.0
000003676 0247_ $$2DOI$$a10.1007/s11214-018-0530-5
000003676 037__ $$aSCART-2019-0006
000003676 100__ $$aFolkner, William M.
000003676 245__ $$aThe Rotation and Interior Structure Experiment on the InSight Mission to Mars
000003676 260__ $$c2018
000003676 520__ $$aThe Rotation and Interior Structure Experiment (RISE) on-board the InSight mission will use the lander's X-band (8 GHz) radio system in combination with tracking stations of the NASA Deep Space Network (DSN) to determine the rotation of Mars. RISE will measure the nutation of the Martian spin axis, detecting for the first time the effect of the liquid core of Mars and providing in turn new constraints on the core radius and density. RISE will also measure changes in the rotation rate of Mars on seasonal time-scales thereby constraining the atmospheric angular momentum budget. Finally, RISE will provide a superb tie between the cartographic and inertial reference frames. This paper describes the RISE scientific objectives and measurements, and provides the expected results of the experiment.
000003676 594__ $$aNO
000003676 700__ $$aDehant, Véronique
000003676 700__ $$aLe Maistre, Sébastien 
000003676 700__ $$aYseboodt, Marie
000003676 700__ $$aRivoldini, Attilio 
000003676 700__ $$aVan Hoolst, Tim
000003676 700__ $$aAsmar, Sami W.
000003676 700__ $$aGolombek, Matthew P.
000003676 773__ $$n5$$pSpace Science Reviews$$v214$$y2018
000003676 8560_ $$fattilio.rivoldini@observatoire.be
000003676 8564_ $$s1156421$$uhttp://publi2-as.oma.be/record/3676/files/Folkner2018fk00.pdf
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000003676 905__ $$apublished in
000003676 980__ $$aREFERD