December 23, 2024

Sharpest Earth-Based Images of Jupiter’s Moons Europa and Ganymede Reveal Their Icy Landscape

Ganymede is not just Jupiters largest moon, however the largest moon in our solar system. It orbits Jupiter every 7.2 days.

Jupiters moon Europa recorded by ESOs Very Large Telescope (VLT). Credit: ESO/King & & Fletcher
The most in-depth images ever taken of 2 of Jupiters biggest moons by a telescope on Earth reveal the mixed drink of chemicals that make up their frozen surface areas.
New pictures of Europa and Ganymede, two future locations for interesting brand-new missions to the Jovian system, have been unveiled by planetary researchers from the University of Leicesters School of Physics and Astronomy.

As a few of the sharpest images of Jupiters moons ever obtained from a ground-based observatory, they reveal brand-new insights into the procedures forming the chemical composition of these huge moons– including geological features such as the long rift-like linae crossing Europas surface.
Ganymede and Europa are 2 of the 4 largest moons orbiting Jupiter, a quartet referred to as the Galilean satellites. While Europa is quite similar in size to our own Moon, Ganymede is the biggest moon in the entire Solar System.
The Leicester group, led by PhD student Oliver King, used the European Southern Observatorys Very Large Telescope (VLT) in Chile to observe and map the surface areas of these two worlds.
The new observations taped the quantity of sunlight reflected from Europa and Ganymedes surface areas at various infrared wavelengths, producing a reflectance spectrum. These reflectance spectra are analyzed by establishing a computer system model that compares each observed spectrum to spectra of different compounds that have been determined in laboratories.
The images and spectra of Europa, released in the Planetary Science Journal, expose that Europas crust is generally made up of frozen water ice with non-ice products infecting the surface area.
Jupiters moon Ganymede captured by ESOs Very Large Telescope (VLT). Credit: ESO/King & & Fletcher
Ganymede is not only Jupiters largest moon, however the biggest moon in our solar system. NASAs Hubble Space Telescope has discovered evidence for an underground saltwater ocean believed to be buried under a thick crust of primarily ice. It orbits Jupiter every 7.2 days.

Europa is named for a female who, in Greek folklore, was abducted by the god Zeus– Jupiter in Roman mythology. With an equatorial diameter of 1,940 miles, Europa is about 90 percent the size of Earths Moon. It orbits Jupiter every 3.5 days.

The observations of Ganymede, published in the journal JGR: Planets, show how the surface area is comprised of 2 main types of terrain: young areas with large amounts of water ice, and ancient locations primarily consisting of a dark grey material, the composition of which is unknown.
The icy locations (blue in the images) consist of Ganymedes polar caps and craters– where an impact occasion has exposed the fresh clean ice of Ganymedes crust. The team mapped how the size of the grains of ice on Ganymede differs throughout the surface area and the possible circulations of a range of various salts, a few of which might originate from within Ganymede itself.
Found at high altitude in northern Chile, and with mirrors over 8 meters throughout, the Very Large Telescope is one of the most powerful telescope centers on the planet..
Oliver King adds: “This has actually allowed us to carry out in-depth mapping of Europa and Ganymede, observing functions on their surfaces smaller sized than 150 km throughout– all at distances over 600 million kilometers from the Earth. Mapping at this fine scale was previously just possible by sending spacecraft all the way to Jupiter to observe the moons up-close.”.
Teacher Leigh Fletcher, who supervised the VLT research study, belongs to the science teams for ESAs Jupiter Icy Moons Explorer (JUICE) and NASAs Europa Clipper mission, which will explore Ganymede and Europa up close in the early 2030s. JUICE is arranged to introduce in 2023, and University of Leicester researchers play crucial roles in its suggested study of Jupiters atmosphere, magnetosphere, and moons.
Teacher Fletcher stated: “These ground-based observations whet the cravings for our future exploration of Jupiters moons.”.
” Planetary missions operate under difficult operating constraints and we just cant cover all the surface that we d like to, so hard decisions need to be taken about which areas of the moons surfaces should have the closest analysis. Observations at 150-km scale such as those offered by the VLT, and ultimately its huge follower the ELT (Extremely Large Telescope), assistance to supply an international context for the spacecraft observations.”.
Recommendations:.
” Global Modelling of Ganymedes Surface Composition: Near-IR Mapping from VLT/SPHERE” by Oliver King and Leigh N. Fletcher, Accepted, JGR: Planets.arXiv:2209.01976.
” Compositional mapping of Europa using MCMC modelling of Near-IR VLT/SPHERE and Galileo/NIMS observations” by Oliver King, Leigh N. Fletcher and Nicolas Ligier (2022 ), 31 March 2022, Planetary Science Journal.DOI: 10.3847/ PSJ/ac596d.
This work was moneyed by a Royal Society Enhancement Award number 180071 to Professor Leigh Fletcher in the School of Physics and Astronomy, entitled “The diversity of Jupiters Galilean moons: Earth-based pathfinder observations in preparation for JUICE.”.

Europa is named for a lady who, in Greek folklore, was abducted by the god Zeus– Jupiter in Roman folklore. It might be the most appealing place in our planetary system to discover contemporary environments ideal for some kind of life beyond Earth. With an equatorial diameter of 1,940 miles, Europa has to do with 90 percent the size of Earths Moon. It orbits Jupiter every 3.5 days.