Analytical computation of total topographic torque at the core–mantle boundary and its impact on tidally driven length-of-day variations

Abstract: Summary The Earth’s rotation exhibits periodic variations as a result of gravitational torques exerted by the Sun and the Moon and of angular momentum exchange of the solid Earth with the Earth’s atmosphere and hydrosphere. Here we aim at determining the complementary effect of the deep interior on variations in the Length-of-Day (LOD) and focus on the influence of topography at the core-mantle boundary (CMB). For this purpose, we have developed an analytical approach for solving the Navier-Stok… Show more

“…The effect of the former, which has been shown to affect the FCN frequency of the Earth by less than 0.1% 81,82 , is neglected in our study. Topographic coupling is proportional to the square of the small topography at the core-mantle boundary 83 , it is thus very small and neglected too.…”

Spin state and deep interior structure of Mars from InSight radio tracking

“…The effect of the former, which has been shown to affect the FCN frequency of the Earth by less than 0.1% 81,82 , is neglected in our study. Topographic coupling is proportional to the square of the small topography at the core-mantle boundary 83 , it is thus very small and neglected too.…”

Spin state and deep interior structure of Mars from InSight radio tracking