Marzia Parisi
Marzia Parisi
Jet Propulsion Laboratory
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Cited by
The gravity field and interior structure of Enceladus
L Iess, DJ Stevenson, M Parisi, D Hemingway, RA Jacobson, JI Lunine, ...
Science 344 (6179), 78-80, 2014
Jupiter’s interior and deep atmosphere: The initial pole-to-pole passes with the Juno spacecraft
SJ Bolton, A Adriani, V Adumitroaie, M Allison, J Anderson, S Atreya, ...
Science 356 (6340), 821-825, 2017
Jupiter’s atmospheric jet streams extend thousands of kilometres deep
Y Kaspi, E Galanti, WB Hubbard, DJ Stevenson, SJ Bolton, L Iess, ...
Nature 555 (7695), 223-226, 2018
A suppression of differential rotation in Jupiter’s deep interior
T Guillot, Y Miguel, B Militzer, WB Hubbard, Y Kaspi, E Galanti, H Cao, ...
Nature 555 (7695), 227-230, 2018
Measurement of Jupiter’s asymmetric gravity field
L Iess, WM Folkner, D Durante, M Parisi, Y Kaspi, E Galanti, T Guillot, ...
Nature 555 (7695), 220-222, 2018
Jupiter's Gravity Field Halfway Through the Juno Mission
D Durante, M Parisi, D Serra, M Zannoni, V Notaro, P Racioppa, ...
Geophysical Research Letters 47 (4), e2019GL086572, 2020
Jupiter gravity field estimated from the first two Juno orbits
WM Folkner, L Iess, JD Anderson, SW Asmar, DR Buccino, D Durante, ...
Geophysical Research Letters 44 (10), 4694-4700, 2017
Rhea gravity field and interior modeling from Cassini data analysis
P Tortora, M Zannoni, D Hemingway, F Nimmo, RA Jacobson, L Iess, ...
Icarus 264, 264-273, 2016
Probing the depth of Jupiter’s Great Red Spot with the Juno gravity experiment
M Parisi, E Galanti, S Finocchiaro, L Iess, Y Kaspi
Icarus 267, 232-242, 2016
Juno Spacecraft Measurements of Jupiter’s Gravity Imply a Dilute Core
B Militzer, WB Hubbard, S Wahl, JI Lunine, E Galanti, Y Kaspi, Y Miguel, ...
The Planetary Science Journal 3 (8), 185, 2022
Equilibrium tidal response of jupiter: Detectability by the Juno spacecraft
SM Wahl, M Parisi, WM Folkner, WB Hubbard, B Militzer
The Astrophysical Journal 891 (1), 42, 2020
The depth of Jupiter’s Great Red Spot constrained by Juno gravity overflights
M Parisi, Y Kaspi, E Galanti, D Durante, SJ Bolton, SM Levin, DR Buccino, ...
Science 374 (6570), 964-968, 2021
New Frontiers-class Uranus Orbiter: Exploring the feasibility of achieving multidisciplinary science with a mid-scale mission
I Cohen, C Beddingfield, R Chancia, G DiBraccio, M Hedman, ...
Bulletin of the American Astronomical Society 53 (4), 323, 2021
Neptune Odyssey: A Flagship Concept for the Exploration of the Neptune–Triton System
AM Rymer, KD Runyon, B Clyde, JI N˙˝ez, R Nikoukar, KM Soderlund, ...
The Planetary Science Journal 2 (5), 184, 2021
Updated Equipotential Shapes of Jupiter and Saturn Using Juno and Cassini Grand Finale Gravity Science Measurements
DR Buccino, R Helled, M Parisi, WB Hubbard, WM Folkner
Journal of Geophysical Research: Planets 125 (8), e2019JE006354, 2020
Determining the depth of Jupiter’s Great Red Spot with Juno: a Slepian approach
E Galanti, Y Kaspi, FJ Simons, D Durante, M Parisi, SJ Bolton
The Astrophysical Journal Letters 874 (2), L24, 2019
Gravity Field of Ganymede After the Juno Extended Mission
L Gomez Casajus, AI Ermakov, M Zannoni, JT Keane, D Stevenson, ...
Geophysical Research Letters 49 (24), e2022GL099475, 2022
Juno spacecraft gravity measurements provide evidence for normal modes of Jupiter
D Durante, T Guillot, L Iess, DJ Stevenson, CR Mankovich, S Markham, ...
Nature Communications 13 (1), 1-8, 2022
Ganymede's Ionosphere Observed by a Dual‐Frequency Radio Occultation With Juno
DR Buccino, M Parisi, E Gramigna, L Gomez‐Casajus, P Tortora, ...
Geophysical Research Letters 49 (23), e2022GL098420, 2022
Where Is the Io Plasma Torus? A Comparison of Observations by Juno Radio Occultations to Predictions From Jovian Magnetic Field Models
PH Phipps, P Withers, MF Vogt, DR Buccino, YM Yang, M Parisi, ...
Journal of Geophysical Research: Space Physics 125 (8), e2019JA027633, 2020
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