A gas giant planet which survives the giant branch stages of evolution at a distance of many au and then is subsequently perturbed sufficiently close to a white dwarf will experience orbital shrinkage and circularization due to star–planet tides. The circularization time-scale, when combined with a known white dwarf cooling age, can place coupled constraints on the scattering epoch as well as the active tidal mechanisms. Here, we explore this coupling across the entire plausible parameter phase space by computing orbit shrinkage and potential self-disruption due to chaotic f-mode excitation and heating in planets on orbits with eccentricities near unity, followed by weakly dissipative equilibrium tides. We find that chaotic f-mode evolution...
The M-dwarf GJ 876 is the closest known star to harbor a multi-planetary system. With three outer pl...
We make use of a new hybrid method to simulate the long-term, multiple-orbit disc formation through ...
We make use of a new hybrid method to simulate the long-term, multiple-orbit disc formation through ...
A gas giant planet which survives the giant branch stages of evolution at a distance of many au and ...
A gas giant planet which survives the giant branch stages of evolution at a distance of many au and ...
Observational evidence of white dwarf planetary systems is dominated by the remains of exo-asteroids...
Robust evidence of an ice giant planet shedding its atmosphere around the white dwarf WD J0914+1914 ...
Robust evidence of an ice giant planet shedding its atmosphere around the white dwarf WD J0914+1914 ...
Context. Planetary debris is observed in the atmospheres of over 1000 white dwarfs, and two white dw...
Secular oscillations in multi-planet systems can drive chaotic evolution of a small inner body throu...
The Astrophysical Journal 761.2 (2012): 21, reproduced by permission of the AASThe search for planet...
Context. Planetary debris is observed in the atmospheres of over 1000 white dwarfs, and two white dw...
Context. The tidal evolution of planets orbiting brown dwarfs (BDs) presents an interesting case stu...
Context. The tidal evolution of planets orbiting brown dwarfs (BDs) presents an interesting case stu...
Observed planetary debris in white dwarf atmospheres predominately originate from the destruction of...
The M-dwarf GJ 876 is the closest known star to harbor a multi-planetary system. With three outer pl...
We make use of a new hybrid method to simulate the long-term, multiple-orbit disc formation through ...
We make use of a new hybrid method to simulate the long-term, multiple-orbit disc formation through ...
A gas giant planet which survives the giant branch stages of evolution at a distance of many au and ...
A gas giant planet which survives the giant branch stages of evolution at a distance of many au and ...
Observational evidence of white dwarf planetary systems is dominated by the remains of exo-asteroids...
Robust evidence of an ice giant planet shedding its atmosphere around the white dwarf WD J0914+1914 ...
Robust evidence of an ice giant planet shedding its atmosphere around the white dwarf WD J0914+1914 ...
Context. Planetary debris is observed in the atmospheres of over 1000 white dwarfs, and two white dw...
Secular oscillations in multi-planet systems can drive chaotic evolution of a small inner body throu...
The Astrophysical Journal 761.2 (2012): 21, reproduced by permission of the AASThe search for planet...
Context. Planetary debris is observed in the atmospheres of over 1000 white dwarfs, and two white dw...
Context. The tidal evolution of planets orbiting brown dwarfs (BDs) presents an interesting case stu...
Context. The tidal evolution of planets orbiting brown dwarfs (BDs) presents an interesting case stu...
Observed planetary debris in white dwarf atmospheres predominately originate from the destruction of...
The M-dwarf GJ 876 is the closest known star to harbor a multi-planetary system. With three outer pl...
We make use of a new hybrid method to simulate the long-term, multiple-orbit disc formation through ...
We make use of a new hybrid method to simulate the long-term, multiple-orbit disc formation through ...
Add to ORKG