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Tidal Dissipation in Giant Planets
Tidal interactions between moons and planets can have major effects on the orbits, spins, and thermal evolution of the moons. In the Saturn system,...
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Tidal resonances for fuzzballs
We study the gravitational tidal response of D1D5, Top Star and (1,0,n) strata horizonless geometries. We find that the tidal interactions in...
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Application of Remote Sensing Data to Assess Tidal Inundation and Its Potential for Food Crop Cultivation
One of the causes of the global food crisis is climate change. To overcome the global food crisis, it is done by opening up new lands for the... -
Tidal Disruption of Stars by Supermassive Black Holes and Naked Singularities with Scalar Hair
AbstractIn this paper we study tidal forces near strongly gravitating objects at the centers of galaxies. In our approach, dark matter surrounding...
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Surface gravity from tidal acceleration
Surface gravity plays a pivotal role in the characterization of black holes and also in formulating the laws of black hole thermodynamics. Despite...
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Tidal Forcing on the Sun and the 11-Year Solar-Activity Cycle
The hypothesis that tidal forces on the Sun are related to the modulations of the solar-activity cycle has gained increasing attention. The studies...
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Sensitivity analysis of polar orbiter motion to lunar viscoelastic tidal deformation
We investigate the impact of viscoelastic tidal deformation of the Moon on the motion of a polar orbiter. The dissipative effects in the Moon’s...
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Origin and Evolution of Enceladus’s Tidal Dissipation
Enceladus possesses a subsurface ocean beneath a conductive ice shell. Based on shell thickness models, the estimated total conductive heat loss from...
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Renormalizing Love: tidal effects at the third post-Newtonian order
We present the conservative effective two-body Hamiltonian at the third order in the post-Newtonian expansion with gravitoelectric quadrupolar...
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Thermal and Tidal Evolution of Ice Giants with Growing Frozen Cores: The Case of Neptune
The contrasting internal luminosity of Uranus and Neptune present a challenge to our understanding of the origin and evolution of these bodies, as...
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Accretion Disk Evolution in Tidal Disruption Events
This is a brief review of the recent progress in understanding the evolution of the accretion disks in tidal disruption events (TDEs). Special... -
Tidal Heating and the Interior Structure of Io
Io is the most tidally heated world in the Solar System. In this chapter, we review the basics of how Io (and other satellites) responds to tidal... -
Particle motion and tidal force in a non-vacuum-charged naked singularity
We investigate the gravitational field of a charged, non-vacuum, non-rotating, spherically symmetric body of mass M assuming a static solution to the...
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Growing Black Holes: Observational Evidence for Stellar Tidal Disruption Events
Three major feeding mechanisms have been studied in the context of black hole growth: accretion, black hole - black hole mergers, and tidal... -
Central pressure-dependent compact anisotropic stellar model and its tidal Love number
We develop an anisotropic compact stellar model by assuming a Buchdahl ansazt (Phys. Rev. 116: 1027–1034, 1959)-type metric potential and a...
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Symmetric periodic orbits in the Hamiltonian Galactic-Tidal models
The aim of the present work is to show the existence of symmetric periodic solutions of a class of perturbed generalized Galatic-Tidal models....
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Accretion Disk Evolution in Tidal Disruption Events
This is a brief review of the recent progress in understanding the evolution of the accretion disks in tidal disruption events (TDEs). Special... -
Toroidal tidal effects in microstate geometries
Tidal effects in capped geometries computed in previous literature display no dynamics along internal (toroidal) directions. However, the dual CFT...
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Ellipsoidal equilibrium figure and Cassini states of rotating planets and satellites deformed by a tidal potential in the spatial case
The equilibrium figure of an inviscid tidally deformed body is the starting point for the construction of many tidal theories such as Darwinian tidal...
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A direct numerical verification of tidal locking mechanism using the discrete element method
We use a discrete element method to simulate the tidal evolution of the spin of a viscoelastic circular body (a secondary body) moving in a circular...