Ganymede Archives

O+2 density at Ganymede’s surface, modeled from the chemical equilibrium between ionization and recombination of O2, using the electron-impact ionization rates from Figure 2c. Photoionization is included in the sunlight region, which is shown by the terminator in orange. White numbers show modeled density values in cm−3 . For comparison, the red numbers show electron densities detected by Galileo (G8) and Juno radio occultation observations under the assumption of a uniform ionosphere (Kliore, 1998; Buccino et al., 2022). -- astro-ph.EP

Astrogeology, Atmospheres, Climate, Weather, Ganymede, Icy Worlds, Imaging & Spectroscopy, Jupiter, Space Weather & Heliophysics, Status Report

Constraining Electron-Impact Ionization of O2 Through UV Aurora Observations at Ganymede

by Keith CowingApril 16, 2026April 16, 2026

While photoionization rates of Ganymede‘s O2 dominated atmosphere are well constrained, the contribution of electron-impact ionization is rather uncertain.

Artist’s impression of the simulations conducted in this research. Jupiter (lower left) has a strong magnetic field which creates a cavity in its circumplanetary disk. Saturn (upper right) lacks a strong magnetic field so its circumplanetary disk evolves without a cavity. Credit: Yuri I. Fujii/L-INSIGHT [Kyoto University], Illustrator: Shinichiro Kinoshita

Astrogeology, Callisto, Enceladus, Europa, Ganymede, Gas Giants, Icy Worlds, Io, Jupiter, Magnetic Fields, Electromagnetism, bioelectricity,, Press Release, Rhea, Saturn, Titan, Water/Hycean Worlds & Oceanography

How Jupiter Cultivated More Large Moons Than Saturn

by Keith CowingApril 8, 2026April 8, 2026

The two largest planets in our Solar System, Jupiter and Saturn, also have the largest satellite systems, or the most moons. At present, Jupiter’s reported moon count stands at more […]

Numerical ocean-induction setup for Ganymede in a deep-ocean scenario with Re m = 1.77. Ganymede’s internal structure is depicted, featuring the ice crust, the deep ocean with its simulated zonal flow, the internal ice layer, the silicate mantle, and the metallic core. Yellow tubes visualize the magnetic field lines. The bottom-right panel shows how magnetic field lines are sheared by the zonal (east–west) jet flow in the ocean (blue/red denote westward/eastward jets, respectively), thereby reflecting the secondary magnetic field induced by such dynamics. -- astro-ph.EP

Astrogeology, Ganymede, Icy Worlds, Jupiter, Magnetic Fields, Electromagnetism, bioelectricity,, Mapping, Geodesy, Cartography, Bathymetry, Status Report, Water/Hycean Worlds & Oceanography

Motional Induction In Ganymede’s Ocean

by Keith CowingMarch 14, 2026March 14, 2026

We investigate the magnetic signature of oceanic circulation in Ganymede’s subsurface ocean using kinematic induction modeling. Our approach couples zonal jet flows from rotating thermal convection simulations with magnetic field […]

ultraviolet aurorae on Ganymede ©️ NASA/JPL-Caltech/SwRI/UVS/ULiège/Gusbin/Bonfond

Ganymede, Jupiter, Magnetic Fields, Electromagnetism, bioelectricity,, Press Release, Radiation, Space Weather & Heliophysics

Similarities Between Auroras On Ganymede And Earth

by Keith CowingFebruary 25, 2026February 25, 2026

A team of astrophysicists from the Laboratory of Atmospheric and Planetary Physics (LPAP) has observed for the first time the fine details of the auroras on Ganymede, the only moon […]

New research conducted by SwRI, Aix-Marseille University and the Institute for Advanced Studies demonstrated how complex organic molecules (COMs) could have formed in the protoplanetary disk represented here. Interstellar ultraviolet particles (orange arrows) irradiate the disk of materials, providing a range of conditions that could trigger the organic chemistry essential to COM creation as the icy grains migrate radially and vertically in the disk. A similar transport and irradiation process operates within Jupiter’s circumplanetary disk. -- SwRI

Astrochemistry, Astrogeology, Biochemistry & Organic Chemistry, Callisto, Europa, Ganymede, Habitable Zones, Icy Worlds, Io, Jupiter, Press Release

New Insights Into The Potential For Life In The Jovian System

by Keith CowingFebruary 23, 2026February 23, 2026

Southwest Research Institute was part of an international team that demonstrated how complex organic molecules (COMs), key chemical precursors to life, could have been incorporated into Jupiter’s Galilean moons during […]

Two-dimensional temperature map of the disk after 280 kyr of evolution. The averaged trajectories of particles over this period, plotted along the 𝑟 and 𝑧 axes, are shown in white. The panels present the trajectories of particles with sizes of 1 cm and 1 𝜇m, released at initial disk temperatures of 20 K (panels a and b) and 80 K (panels c and d). Green triangles indicate the initial positions of the particles, while green crosses mark their final positions. In each panel, the detailed trajectory of an individual particle is highlighted within the square on the right. -- astro-ph.EP

Astrochemistry, Biochemistry & Organic Chemistry, Biosignatures & Paleobiology, Callisto, Europa, Ganymede, Icy Worlds, Imaging & Spectroscopy, Io, Jupiter, Status Report

Delivery Of Complex Organic Molecules To The System Of Jupiter

by Keith CowingFebruary 20, 2026February 20, 2026

Complex organic molecules are key markers of molecular diversity, and their formation conditions in protoplanetary disks remain an active area of research. These molecules have been detected on a variety […]

Temperature profiles of the CPD at t = 50, 100, 150, and 200 kyr of its evolution. The formation of COMs by thermal processing occurs in the temperature range from 80 K (blue dashed line) to 260 K (red dashed line). At 150 kyr of evolution, a cold region appears in the model, with temperatures too low to support COM formation by thermal processing. -- astro-ph.EP

Astrochemistry, Astrogeology, Biochemistry & Organic Chemistry, Biosignatures & Paleobiology, Callisto, Cryobiology, Europa, Ganymede, Habitable Zones, Ice Giant, Io, Jupiter, Missions & Hardware, Status Report

Formation and Survival of Complex Organic Molecules in the Jovian Circumplanetary Disk

by Keith CowingFebruary 19, 2026February 19, 2026

Europa, Ganymede, and Callisto are key targets in the search for habitability due to the potential presence of subsurface oceans. Detecting complex organic molecules (COMs), essential for prebiotic chemistry, is […]

Astrochemistry, Astrogeology, Biosignatures & Paleobiology, Callisto, Europa, Ganymede, Icy Worlds, Io, Jupiter, Press Release

The Water Makeup Of Jupiter’s Galilean Moons Was Set At Birth

by Keith CowingJanuary 20, 2026January 20, 2026

While Io, the most volcanically active moon in the solar system, appears completely dry and devoid of water ice, its neighbor Europa is thought to harbor a vast global ocean […]

Schematic of the circum-Jovian decretion disk. Gas and dust from the circumsolar accretion disk are subsumed into the Jovian disk from approximately one hydrostatic scale height via meridional flows, and move outward beyond the magnetospheric truncation radius. Decretion M˙ is driven by turbulence manifesting as a macroscopic viscosity, and parametrized by the Shakura-Sunyaev α parameter. The four Galilean moons are envisioned to form beyond the ice-line and pressure bump, and undergo Type-I migration inwards. The bump serves as a migration trap, preventing Callisto from convergent migration into resonance with Io, Europa, and Ganymede. -- astro-ph.EP

Callisto, Europa, Ganymede, Icy Worlds, Io, Jupiter, Status Report

Callisto’s Nonresonant Orbit As An Outcome Of Circum-Jovian Disk Substructure

by Keith CowingJanuary 9, 2026January 9, 2026

The Galilean moons of Io, Europa, and Ganymede exhibit a 4:2:1 commensurability in their mean motions, a configuration known as the Laplace resonance.

Surviving rapid inward orbital migration is a crucial aspect of formation models for the Jupiter's Galilean moons. (Source)

Callisto, Europa, Ganymede, Icy Worlds, Io, Jupiter, Status Report

Not Just Gas: How Solid-Driven Torques Shaped the Migration of the Galilean Moons

by Keith CowingDecember 31, 2025December 31, 2025

The primary aim of this study is to investigate the orbital migration of the Galilean moons by incorporating self-consistent solid dynamics in circumjovian disk models. We perform two-fluid simulations using […]

Ganymede

Constraining Electron-Impact Ionization of O2 Through UV Aurora Observations at Ganymede

How Jupiter Cultivated More Large Moons Than Saturn

Motional Induction In Ganymede’s Ocean

Similarities Between Auroras On Ganymede And Earth

New Insights Into The Potential For Life In The Jovian System

Delivery Of Complex Organic Molecules To The System Of Jupiter

Formation and Survival of Complex Organic Molecules in the Jovian Circumplanetary Disk

The Water Makeup Of Jupiter’s Galilean Moons Was Set At Birth

Callisto’s Nonresonant Orbit As An Outcome Of Circum-Jovian Disk Substructure

Not Just Gas: How Solid-Driven Torques Shaped the Migration of the Galilean Moons

PJ Harvey Announces New Song “Voyager”

Fifty Years after Viking: The Promise of Solar System Microbiology and Microbial Ecology

Characterising Transiting Exoplanets At Long Orbital Period: Lessons Learned For PLATO From 10 Years Of Monitoring The HIP41378 System

Implications Of Self-consistent H2O Ice Optical Constants On Radiative Transfer Models Of Disks

The GAPS Programme at TNG LXXIV. A Reanalysis Of The Planetary Systems TOI-1272 And TOI-1694 With HARPS-N And Retraction Of The Planetary Interpretation Of TOI-1272 c