Satellite orbital precessions caused by the first odd zonal J <SUB>3</SUB> multipole of a non-spherical body arbitrarily oriented in space

doi:10.1007/s10509-014-1915-x

Satellite orbital precessions caused by the first odd zonal J ₃ multipole of a non-spherical body arbitrarily oriented in space

Renzetti, G.

An astronomical body of mass M and radius R which is non-spherically symmetric generates a free space potential U which can be expanded in multipoles. As such, the trajectory of a test particle orbiting it is not a Keplerian ellipse fixed in the inertial space. The zonal harmonic coefficients J₂,J₃,â€¦ of the multipolar expansion of the potential cause cumulative orbital perturbations which can be either harmonic or secular over time scales larger than the unperturbed Keplerian orbital period T. Here, I calculate the averaged rates of change of the osculating Keplerian orbital elements due to the odd zonal harmonic J₃ by assuming an arbitrary orientation of the body's spin axis $\hat{\boldsymbol{k}}$. I use the Lagrange planetary equations, and I make a first-order calculation in J₃. I do not make a-priori assumptions concerning the eccentricity e and the inclination i of the satellite's orbit.

Publication:

Astrophysics and Space Science

Pub Date:

August 2014

DOI:

10.1007/s10509-014-1915-x

Bibcode:

2014Ap&SS.352..493R

Keywords:

Experimental studies of gravity;
Satellite orbits;
Harmonics of the gravity potential field

ADS

Satellite orbital precessions caused by the first odd zonal J 3 multipole of a non-spherical body arbitrarily oriented in space

Abstract

Satellite orbital precessions caused by the first odd zonal J ₃ multipole of a non-spherical body arbitrarily oriented in space