Dynamical tides exciting f-modes during high-eccentricity migration produce the hot Jupiter pile-up, Neptune ridge, and Neptune desert via orbital circularization and selective atmospheric mass loss.
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Updated ab initio tidal models predict Earth survives the Sun's giant phases, but outcomes depend strongly on AGB mass-loss rates, with L2 Pup observations as proxy indicating survival while low rates lead to engulfment.
Simulations with a new tidal model in COMPAS predict that merging binary black holes from isolated evolution are strongly biased to low effective spins, with one third below 0.05 and only 3% above 0.5, but the high-spin fraction rises to 15% at higher redshifts.
citing papers explorer
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Dynamical Tides during High-Eccentricity Migration produces the Hot Jupiter Pile-up, Neptune Ridge, and Neptune Desert
Dynamical tides exciting f-modes during high-eccentricity migration produce the hot Jupiter pile-up, Neptune ridge, and Neptune desert via orbital circularization and selective atmospheric mass loss.
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The fate of Earth during the Sun's giant phases: New constraints from ab initio tidal modelling and AGB mass loss
Updated ab initio tidal models predict Earth survives the Sun's giant phases, but outcomes depend strongly on AGB mass-loss rates, with L2 Pup observations as proxy indicating survival while low rates lead to engulfment.
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Modern tidal interaction models for rapid binary population synthesis: II. Binary black hole formation, mergers, and spins
Simulations with a new tidal model in COMPAS predict that merging binary black holes from isolated evolution are strongly biased to low effective spins, with one third below 0.05 and only 3% above 0.5, but the high-spin fraction rises to 15% at higher redshifts.
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