000005615 001__ 5615
000005615 005__ 20220125121623.0
000005615 037__ $$aPOSTER-2022-0004
000005615 100__ $$aYseboodt, Marie
000005615 245__ $$aMartian Rotation and Orientation Angles: transformation between the Euler angles and the Earth equatorial coordinates
000005615 260__ $$c2021
000005615 269__ $$c2021-10-18
000005615 520__ $$aMars rotation models are regularly updated based on the precise radioscience data coming from Martian orbiters and landers and new theoretical developments. Two precise radio-science experiments are ongoing or will arrive soon: the RISE experiment on board the InSight mission (Folkner et al., 2018) and the future LaRa experiment on ExoMars 2022 (Dehant et al., 2020). Two different sets of angles are commonly used in the rotation matrix transforming the coordinates from the body frame to an inertial frame: the Euler angles versus the IAU formulation with the Earth equatorial coordinates. We present the transformations between the 2 sets. We compute the initial values of the angles, their temporal drift (diurnal rate or precession rate) and their quadratic term, and their periodic variations (nutations and length-of-day LOD variations).  The objective is to have a rotation matrix difference smaller than less than 1 mas. The improvements proposed in the transformations mostly affect the rotation angle (or LOD) variations and the quadratic terms.
000005615 594__ $$aNO
000005615 700__ $$aBaland, Rose-Marie 
000005615 700__ $$aLe Maistre, Sebastien 
000005615 700__ $$aDehant, Veronique 
000005615 773__ $$tMulti-scale (time and mass) dynamics of space objects, IAU symposium, online
000005615 8560_ $$fmarie.yseboodt@observatoire.be
000005615 85642 $$ahttps://www.math.uaic.ro/~IAU_S364/
000005615 980__ $$aCPOSTER