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W3102123273 abstract "The tilt of a planet's spin axis off its orbital axis (obliquity) is a basic physical characteristic that plays a central role in determining the planet's global circulation and energy redistribution. Moreover, recent studies have also highlighted the importance of obliquities in sculpting not only the physical features of exoplanets but also their orbital architectures. It is therefore of key importance to identify and characterize the dominant processes of excitation of nonzero axial tilts. Here we highlight a simple mechanism that operates early on and is likely fundamental for many extrasolar planets and perhaps even solar system planets. While planets are still forming in the protoplanetary disk, the gravitational potential of the disk induces nodal recession of the orbits. The frequency of this recession decreases as the disk dissipates, and when it crosses the frequency of a planet's spin axis precession, large planetary obliquities may be excited through capture into a secular spin–orbit resonance. We study the conditions for encountering this resonance and calculate the resulting obliquity excitation over a wide range of parameter space. Planets with semimajor axes in the range 0.3 au ≲ a ≲ 2 au are the most readily affected, but large-a planets can also be impacted. We present a case study of Uranus and Neptune, and show that this mechanism likely cannot help explain their high obliquities. While it could have played a role if finely tuned and envisioned to operate in isolation, large-scale obliquity excitation was likely inhibited by gravitational planet–planet perturbations." @default.
W3102123273 created "2020-11-23" @default.
W3102123273 creator A5073940963 @default.
W3102123273 creator A5078835212 @default.
W3102123273 date "2019-05-10" @default.
W3102123273 modified "2023-09-24" @default.
W3102123273 title "Excitation of Planetary Obliquities through Planet–Disk Interactions" @default.
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W3102123273 doi "https://doi.org/10.3847/1538-4357/ab19be" @default.
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