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Peter Read et al.
NONLINEAR PROCESSES IN GEOPHYSICS (2020)
Prevalent lightning sferics at 600 megahertz near Jupiter's poles
Shannon Brown et al.
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The Gas Composition and Deep Cloud Structure of Jupiter's Great Red Spot
G. L. Bjoraker et al.
ASTRONOMICAL JOURNAL (2018)
A planetary-scale disturbance in the most intense Jovian atmospheric jet from JunoCam and ground-based observations
A. Sanchez-Lavega et al.
GEOPHYSICAL RESEARCH LETTERS (2017)
Cycles of activity in the Jovian atmosphere
L. N. Fletcher
GEOPHYSICAL RESEARCH LETTERS (2017)
The distribution of ammonia on Jupiter from a preliminary inversion of Juno microwave radiometer data
Cheng Li et al.
GEOPHYSICAL RESEARCH LETTERS (2017)
Jupiter cloud morphology and zonal winds from ground-based observations before and during Juno's first perijove
R. Hueso et al.
GEOPHYSICAL RESEARCH LETTERS (2017)
Moist convection and the 2010-2011 revival of Jupiter's South Equatorial Belt
Leigh N. Fletcher et al.
ICARUS (2017)
Forward and inverse kinetic energy cascades in Jupiter's turbulent weather layer
Roland M. B. Young et al.
NATURE PHYSICS (2017)
Mid-infrared mapping of Jupiter's temperatures, aerosol opacity and chemical distributions with IRTF/TEXES
Leigh N. Fletcher et al.
ICARUS (2016)
Jupiter's Unearthly Jets: A New Turbulent Model Exhibiting Statistical Steadiness without Large-Scale Dissipation*
Stephen I. Thomson et al.
JOURNAL OF THE ATMOSPHERIC SCIENCES (2016)
Numerical simulations of Jupiter's moist convection layer: Structure and dynamics in statistically steady states
K. Sugiyama et al.
ICARUS (2014)
Atmospheric dynamics of Saturn's 2010 giant storm
E. Garcia-Melendo et al.
NATURE GEOSCIENCE (2013)
Generation of equatorial jets by large-scale latent heating on the giant planets
Yuan Lian et al.
ICARUS (2010)
The Chemical Composition of the Sun
Martin Asplund et al.
ANNUAL REVIEW OF ASTRONOMY AND ASTROPHYSICS, VOL 47 (2009)
Vertical structure of Jupiter's troposphere from nonlinear simulations of long-lived vortices
Jon Legarreta et al.
ICARUS (2008)
Depth of a strong jovian jet from a planetary-scale disturbance driven by storms
A. Sanchez-Lavega et al.
NATURE (2008)
Jovian atmospheric dynamics:: an update after Galileo and Cassini
AR Vasavada et al.
REPORTS ON PROGRESS IN PHYSICS (2005)
Jupiter's 24°N highest speed jet:: Vertical structure deduced from nonlinear simulations of a large-amplitude natural disturbance
E García-Melendo et al.
ICARUS (2005)
Cassini imaging of Jupiter's atmosphere, satellites, and rings
CC Porco et al.
SCIENCE (2003)
A model for large-scale convective storms in Jupiter -: art. no. 5075
R Hueso et al.
JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS (2002)
EPIC simulations of bright companions to Neptune's great dark spots
PW Stratman et al.
ICARUS (2001)
A three-dimensional model of moist convection for the giant planets:: The Jupiter case
R Hueso et al.
ICARUS (2001)
Observation of moist convection in Jupiter's atmosphere
PJ Gierasch et al.
NATURE (2000)
Moist convection as an energy source for the large-scale motions in Jupiter's atmosphere
AP Ingersoll et al.
NATURE (2000)