S. J. Bolton

    flowchart
    A[S. J. Bolton]
    AC["Associated Concepts (25)"]
    AW["Authored Works (80)"]
    CA["Linked Co-Authors (119)"]
    CI["Linked Collaborating Institutions (58)"]
    A== dcterms:relation ==>AC
    AW== author ==>A
    AW== author ==>CA
    AW== affil ==>CI
    click AC "#associated-concepts"
    click AW "#authored-works"
    click CA "#co-authors"
    click CI "#collaborating-institutions"

    NI["add incoming edge"]
    NO["add outgoing edge"]
    NI-- ? -->A
    A-- ? -->NO
    click NI "#add-incoming-edge"
    click NO "#add-outgoing-edge"
    style NI stroke-width:2px,stroke-dasharray: 5 5
    style NO stroke-width:2px,stroke-dasharray: 5 5

ORCiD

https://orcid.org/0000-0002-9115-0789

OpenAlex ID

https://openalex.org/A5079549558 (API record)

Associated Concepts [?]

• Physics
• Astronomy
• Engineering
• Aerospace engineering
• Geology
• Spacecraft
• Space exploration
• Space Shuttle
• Jupiter (rocket family)
• Astrophysics
• Quantum mechanics
• Biology
• Planet
• Saturn
• Astrobiology
• Geography
• Jovian
• Nuclear physics
• Magnetic field
• Plasma
• Magnetosphere
• Meteorology
• Atmosphere of Jupiter
• Geophysics
• Optics

Authored Works

sorted by decreasing year, and then by display-name

• Water-group ions from Europa and Ganymede: A window into surface ice evolution
• UVS Observations of Jupiter's Brightest Aurora of the Juno Mission: Perijove 43
• The satellite auroral footprints at Jupiter: A Juno perspective
• The influence of stably stratified layers on Jupiter's dynamo magnetic field
• The Interplanetary Dust Population as Measured by the MAG Investigation on the Juno Spacecraft
• Spatial- and Temporal- Variations in Jupiter's Atmosphere
• Revealing the Depth and Sub-surface Structure of Ganymede's Ice Shell from Juno Microwave Radiometer Observations
• Radio Occultation Studies of Jupiter's Atmosphere, Ionosphere, and Aurorae using the Juno Spacecraft
• Preliminary Results From Juno's Flyby of Europa
• Plasma properties in Ganymede's wake as observed by Juno/JADE
• Overview of Plasma Observations During the Recent Europa Flyby from Juno/JADE
• Observations of Jupiter's Dusk Magnetopause at High Southern Latitude: Implications for 3-D Magnetosphere Structure and Solar Wind Interactions
• Observation of Turbulent Magnetohydrodynamic Cascade in the Jovian Magnetosheath
• Modeling Gas Giant Lightning in Non-Aqueous Clouds
• Measured Particle Flux Levels and their Importance to Ganymede Weathering
• Low Latitude Trapped Jovian Electrons Measured by Juno/JADE
• Jupiter's tropospheric temperature and composition
• Jupiter's Thunderstorms and Environs in the North Equatorial Belt: Results from JIRAM, JunoCam, MWR and Earth-Based Observations during Perijove 38.
• Jupiter's Magnetic Field and Secular Variation During Juno's First 6 Years in Orbit
• JunoCam Images of Europa
• Juno-UVS Observations of Europa during the PJ45 Flyby
• Juno-UVS Background Measurements of the High-Energy Particle Population and Morphology of the Io Plasma Torus
• Juno Stellar Reference Unit Observations of the Jovian Satellites and Rings
• Juno Plasma Wave Observations at Europa
• Juno Observations of Jovian Long Dispersion Lightning Whistlers associated with the Io torus
• Juno Microwave Radiometer Observations of Europa's Ice Shell
• Juno 3-Dimensional Views of Cyclonic Features in Jupiter's Mid- to High-Northern Latitudes
• Ionosphere of Europa from an X-band Radio Occultation with the Juno Spacecraft
• Investigating the Occurrence of Kelvin-Helmholtz Instabilities at Jupiter's Dawn Magnetopause
• In-situ detection of a comet dust tail by the Juno spacecraft's magnetometer investigation
• In Situ Ion Composition Observations of Ganymede's Outflowing Ionosphere
• Ganymede's interior after Juno and before JUICE
• Europa's influence on the Jovian energetic electron environment as observed by Juno's micro Advanced Stellar Compass
• Electron Densities over Jupiter's Polar Cap and Implications for Auroral Acceleration
• Distributions of Ions Observed In Situ in the Topside, Equatorial Jovian Ionosphere
• C2H2 in Jupiter's atmosphere from Juno UVS observations: latitudinal distribution and localized enhancement within the auroral ovals
• Beta-dependent Constraints on Ion Temperature Anisotropy in Jupiter's Magnetosheath
• Atmospheric flows imprint the high-degree gravity field of Jupiter
• An Overview of Juno's Close Encounter with Ganymede
• UVS Observations of Ganymede During Juno Orbits 34 and 35
• The internal structure of vortices on Jupiter as observed by the Juno Microwave Radiometer
• Resolved Microwave Observations of Ganymedes Ice Shell
• Proton outflow associated with Jupiters auroral processes and moon-magnetosphere interactions
• Predicting Lightning Depth Distributions of Saturn, Uranus, and Neptune
• Plasma Observations in Ganymedes Magnetosphere during the PJ34 Juno Flyby
• Observations of Ganymedes Ionosphere from a Dual-Frequency Radio Occultation with Juno
• Observation of Jupiters normal modes from Juno gravity measurements
• New observations of the gravity field of Ganymede from Junos G34 flyby
• Nature of Turbulence in the Jovian Magnetosheath from Juno Data
• Modeling the Composition and Structure of Jupiters Northern Aurora based on Junos MWR Maps
• Measured charged particle fluxes relevant to Ganymede weathering
• Looking for water in Jupiters atmosphere: Adam Showmans legacy and Juno measurements
• Jupiter's Deep Meridional Circulation as Inferred From Juno's MWR
• Juno-UVS Observations of High-Energy Radiation on Magnetic Field Lines near the Galilean Satellites
• Juno's Insights on the Origin and Evolution of Jupiter
• Juno Waves Observations of Long Dispersion Lightning Whistlers associated with the Io torus
• Juno UVS Observations of the Local Time Dependence of Jupiters Polar Auroral Emissions
• Juno Prime Mission Discoveries about Jupiters Aurora and Polar Space Environments
• Juno Plasma Wave Observations at Ganymede
• Juno Microwave Radiometer Observations of Ganymedes Ice Shell
• Juno MWR Revealed Points-of-interest from Error Analysis
• JEDI overview of Junos first close Ganymede flyby
• Ios interaction with Jupiters magnetosphere: A high-resolution, in-situ study of fields and particles phenomena
• In Situ, Composition Separated Ion Observations in Ganymedes Magnetosphere
• Images of Jupiter from Juno's JunoCam: The Intersection of Science and Art
• Identifying the Occurrence of Magnetic Reconnection at Jupiters Dawn Magnetopause
• Identification of Io hot spots by JUNO/JIRAM data
• How deep is Jupiters Great Red Spot? Results from the Juno gravity experiment
• Heavy Ions Observed In Situ in the Topside, Equatorial Jovian Ionosphere
• HST observations of Ganymede for Junos PJ34 flyby
• Ganymede in the 21st Century: JunoCam Observations at Perijove 34
• Ganymede in Jupiter-shine
• Ganymede as observed by Juno/JIRAM in PJ34 and PJ35 (June and July 2021)
• Electromagnetic evidence of stepwise extension of the Jovian lightning channels
• Constraints on the Latitudinal Profile of Jupiter's Deep Jets
• Circulation cells in the meridional plane of Jupiter: Breaking waves produce upside-down analogs of the Brewer Dobson circulation in Earths stratosphere
• Average variability in Ios volcanic activity as inferred by Juno/JIRAM
• Alkali metals in Jupiters atmosphere
• A New Model of Jupiters Magnetic Field Based Upon Junos Thirty-Three Prime Mission Orbits
• A Comprehensive Set of Juno In Situ and Remote Sensing Observations of the Ganymede Auroral Footprint

Linked Co-Authors

• A. Adriani
• A. Ermakov
• A. H. Sulaiman
• A. M. Rymer
• A. Masters
• A. Mura
• A. R. Poppe
• Amorée Hodges
• Ananyo Bhattacharya
• Andrew P. Ingersoll
• Angèle Pontoni
• Ankit Barik
• B. H. Mauk
• Bennett A. Maruca
• Bertrand Bonfond
• C. Paranicas
• Candice Hansen
• Cheng Li
• Christina Toldbo
• Christopher Mankovich
• Corentin Louis
• D. F. Strobel
• D. J. Gershman
• D. J. McComas
• D. J. Stevenson
• D. K. Haggerty
• Daniele Durante
• Denis Grodent
• Dustin Buccino
• E. J. Bunce
• E. Roussos
• Eli Galanti
• F. Allegrini
• F. Bagenal
• F. Tosi
• F. Zambon
• Fabiano Oyafuso
• G. A. DiBraccio
• G. B. Hospodarsky
• G. Clark
• G. Filacchione
• G. R. Gladstone
• Glenn S. Orton
• H. T. Smith
• Heidi N. Becker
• Henrik Melin
• Ivana Kolmašová
• J. E. P. Connerney
• J. H. Waite
• J. H. Westlake
• J. Montgomery
• J. R. Szalay
• J. T. Keane
• James Sinclair
• Jared Espley
• Jean‐Claude Gérard
• Jeremy Bloxham
• Joachim Saur
• John Leif Jørgensen
• Jonathan I. Lunine
• Joshua A. Kammer
• José M.G. Merayo
• K. Moore
• Kurt D. Retherford
• L. E. Bonnefoy
• L. Iess
• L. J. Begley
• Laurent Lamy
• Leigh N. Fletcher
• Leonardo Regoli
• Lorenz Roth
• Lucas Liuzzo
• Luis Gomez Casajus
• M. A. Janssen
• M. A. Ravine
• Marco Zannoni
• Marissa F. Vogt
• Mathias Benn
• Matija Herceg
• Michael H. Wong
• Nadine Nettelmann
• Nimrod Gavriel
• O. Santolı́k
• P. A. Delamere
• P. Kollmann
• P. Louarn
• P. W. Valek
• Paul G. Steffes
• Paul Withers
• Peter Siegbjørn Jørgensen
• Philippa M. Molyneux
• Q. Nénon
• R. Bandyopadhyay
• R. L. Lysak
• R. Lopes-Gautier
• R. W. Ebert
• R. Wilson
• Robert E Ergun
• Rohini Giles
• Ryan Park
• Ryunosuke Akiba
• S. A. Fuselier
• S. M. Levin
• S. Vance
• Sabine Stanley
• Sadie Elliott
• Shawn Brueshaber
• Sidharth Misra
• Stavros Kotsiaros
• T. E. Cravens
• T. Guillot
• Thomas Greathouse
• Troelz Denver
• V. Dols
• V. Hue
• W. S. Kurth
• Yamila Miguel
• Yash Sarkango
• Yohai Kaspi

Linked Collaborating Institutions

• Academy of Sciences of the Czech Republic, Institute of Physics
• Andreas Eckart University of Cologne, Germany
• Boston University, Massachusetts
• British Astronomical Association
• California Institute of Technology
• Catholic University, Washington DC
• Charles University, Department of Physics
• Cornell University, New York
• DTU Physics, Lyngby
• DTU, Institute for Space Research and Technology
• Georgia Institute of Technology
• German Aerospace Center, Berlin
• Harvard University, Massachusetts
• Imperial College, London
• Italian Space Agency
• Jet Propulsion Laboratory
• Johns Hopkins University, Applied Physics Laboratory
• Johns Hopkins University, Maryland
• KTH, Royal Institute of Technology, Sweden
• Lamont-Doherty Earth Observatory
• Lunar and Planetary Institute, Houston
• Malin Space Science Systems, California
• Max-Planck-Institute for Solar System Research, Lindau
• NASA Goddard Space Flight Center, Maryland
• New York University
• Niels Bohr Institute for Astronomy, Physics and Geophysics
• Observatoire de la Cote d'Azur, France
• Planetary Science Institute, Arizona
• Princeton University, New Jersey
• SETI Institute, California
• Sapienza University, Rome, Italy
• Southern Methodist University, Texas
• Southwest Research Institute, Texas
• Swedish Institute of Space Physics, Kiruna
• Technical University of Denmark, Lyngby
• University College London, Mullard Space Science Laboratory
• University of Alaska, Fairbanks
• University of Arizona
• University of Bern, Switzerland
• University of Bologna, Italy
• University of California, Berkeley
• University of California, Berkeley, Space Sciences Laboratory
• University of Colorado, Boulder
• University of Colorado, Boulder, Laboratory for Atmospheric and Space Physics
• University of Houston, Texas
• University of Iowa
• University of Kansas
• University of Leicester, UK
• University of Leiden, Netherlands
• University of Liege, Belgium
• University of Michigan
• University of Minnesota, Twin Cities
• University of Oxford, UK
• University of Texas, San Antonio
• University of Toronto, Canada
• University of Zurich, Switzerland
• Weizmann Institute of Science, Israel
• Yale University, Connecticut

Add Incoming Edge

Login via ORCiD to contribute.

Add Outgoing Edge

Login via ORCiD to contribute.