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Main Authors: Mankovich, Christopher R., Parisi, Marzia, Landau, Damon F., Dewberry, Janosz W.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.08698
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author Mankovich, Christopher R.
Parisi, Marzia
Landau, Damon F.
Dewberry, Janosz W.
author_facet Mankovich, Christopher R.
Parisi, Marzia
Landau, Damon F.
Dewberry, Janosz W.
contents Close orbits by a Uranus Orbiter and Probe (UOP) could be used to deduce Uranus's multipolar gravity field to higher precision and angular degree than the J2 and J4 currently measured from ground-based ring occultations and the Voyager 2 flyby. We examine Jn sensitivity limits obtained from simulations of candidate UOP trajectories, pairing these with Uranus interior and wind models to perform retrievals from the gravity moments. We consider zonal wind profiles derived from recent feature-tracking data, assuming that zonal winds extend into the planet along cylinders, with a radial decay function similar to those that explain Jupiter and Saturn gravity. Present knowledge of J2 and J4 permits a fairly wide range of possible wind depths in Uranus, up to 1,800 km or 7% by radius. Measuring additional gravity moments is essential to separate this unknown wind depth from other interior properties of interest, but J6 is found to be too dominated by bulk rotation to be a useful probe of the wind depth. Odd moments arising from Uranus's observed north-south asymmetric flow are strong functions of the wind depth, but the usefulness of J3 is hindered by its sensitivity to present uncertainties in the wind profile. The even moment J8, or the odd moments J5 and J7, are the best probes of the depth of Uranus's winds. J8, and most likely J5 and J7, are measurable in a highly inclined orbit making >~10 pericenter passages inward of the $ζ$ ring, approximately 1,000-2,500 km above Uranus's cloud tops.
format Preprint
id arxiv_https___arxiv_org_abs_2511_08698
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Isolating the gravitational influence of Uranus's winds requires close passages inward of the rings
Mankovich, Christopher R.
Parisi, Marzia
Landau, Damon F.
Dewberry, Janosz W.
Earth and Planetary Astrophysics
Close orbits by a Uranus Orbiter and Probe (UOP) could be used to deduce Uranus's multipolar gravity field to higher precision and angular degree than the J2 and J4 currently measured from ground-based ring occultations and the Voyager 2 flyby. We examine Jn sensitivity limits obtained from simulations of candidate UOP trajectories, pairing these with Uranus interior and wind models to perform retrievals from the gravity moments. We consider zonal wind profiles derived from recent feature-tracking data, assuming that zonal winds extend into the planet along cylinders, with a radial decay function similar to those that explain Jupiter and Saturn gravity. Present knowledge of J2 and J4 permits a fairly wide range of possible wind depths in Uranus, up to 1,800 km or 7% by radius. Measuring additional gravity moments is essential to separate this unknown wind depth from other interior properties of interest, but J6 is found to be too dominated by bulk rotation to be a useful probe of the wind depth. Odd moments arising from Uranus's observed north-south asymmetric flow are strong functions of the wind depth, but the usefulness of J3 is hindered by its sensitivity to present uncertainties in the wind profile. The even moment J8, or the odd moments J5 and J7, are the best probes of the depth of Uranus's winds. J8, and most likely J5 and J7, are measurable in a highly inclined orbit making >~10 pericenter passages inward of the $ζ$ ring, approximately 1,000-2,500 km above Uranus's cloud tops.
title Isolating the gravitational influence of Uranus's winds requires close passages inward of the rings
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2511.08698