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Main Authors: Lin, Jessica, Dudiak, Ivan, Hadden, Samuel, Tamayo, Daniel
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.12415
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author Lin, Jessica
Dudiak, Ivan
Hadden, Samuel
Tamayo, Daniel
author_facet Lin, Jessica
Dudiak, Ivan
Hadden, Samuel
Tamayo, Daniel
contents Observed pileups of planets with period ratios $\approx 1\%$ wide of strong mean motion resonances (MMRs) pose an important puzzle. Early models showed that they can be created through sustained eccentricity damping driving a slow separation of the orbits, but this picture is inconsistent with elevated eccentricities measured through Transit Timing Variations. We argue that any source of divergent migration (tides, planet-disk interactions etc.) will cause planets that encounter an MMR to both jump over it (piling up wide of resonance) and get a kick to their free eccentricity. We find that the jumps in eccentricity expected from slow MMR crossings are sufficient (but mostly too large) to explain the free eccentricities measured through TTVs. We argue that this mechanism can be brought in line with observations if MMR crossings are not adiabatic and/or through residual eccentricity damping.
format Preprint
id arxiv_https___arxiv_org_abs_2412_12415
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Creating Pileups of Eccentric Planet Pairs Wide of MMRs Through Divergent Migration
Lin, Jessica
Dudiak, Ivan
Hadden, Samuel
Tamayo, Daniel
Earth and Planetary Astrophysics
Observed pileups of planets with period ratios $\approx 1\%$ wide of strong mean motion resonances (MMRs) pose an important puzzle. Early models showed that they can be created through sustained eccentricity damping driving a slow separation of the orbits, but this picture is inconsistent with elevated eccentricities measured through Transit Timing Variations. We argue that any source of divergent migration (tides, planet-disk interactions etc.) will cause planets that encounter an MMR to both jump over it (piling up wide of resonance) and get a kick to their free eccentricity. We find that the jumps in eccentricity expected from slow MMR crossings are sufficient (but mostly too large) to explain the free eccentricities measured through TTVs. We argue that this mechanism can be brought in line with observations if MMR crossings are not adiabatic and/or through residual eccentricity damping.
title Creating Pileups of Eccentric Planet Pairs Wide of MMRs Through Divergent Migration
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2412.12415