Research theme: Tides in giant planets and stars

(Brief description of this topic...)

Related publications

Tidal heating and stellar irradiation of hot Jupiters
Tidal interactions in spin-orbit misaligned systems
Non-linear tides in a homogeneous rotating planet or star: global modes and elliptical instability
Tidal interactions of a Maclaurin spheroid - II. Resonant excitation of modes by a close, misaligned orbit
Tidal Dissipation in Stars and Giant Planets
Tidal interactions of a Maclaurin spheroid - I. Properties of free oscillation modes
Direct numerical simulations of an inertial wave attractor in linear and nonlinear regimes
Non-linear evolution of tidally forced inertial waves in rotating fluid bodies
Tides in rotating barotropic fluid bodies: the contribution of inertial waves and the role of internal structure
On the interaction between tides and convection
Stability analysis of a tidally excited internal gravity wave near the centre of a solar-type star
On internal wave breaking and tidal dissipation near the centre of a solar-type star
Tidal dissipation in rotating fluid bodies: a simplified model
On the tidal evolution of Hot Jupiters on inclined orbits
Diurnal thermal tides in a non-synchronized hot Jupiter
Tidal Dissipation in Rotating Solar-Type Stars
Wave attractors and the asymptotic dissipation rate of tidal disturbances
Tidal Dissipation in Rotating Giant Planets

Research
Home

Published by Gordon Ogilvie, August 2017