New images of the interstellar comet 3I/ATLAS nearing Earth have been captured by astronomers
Fresh observations of comet 3I/ATLAS reveal its unusual structure and dynamic tails as it nears its closest approach to Earth later this month. The interstellar visitor, which originated beyond our solar system, has sparked intense interest among scientists since its discovery in July 2025.
Comet 3I/ATLAS is only the third interstellar object ever detected traveling through our solar system, making every observation crucial for understanding its trajectory, composition, and behavior. Both the Hubble Space Telescope and the European Space Agency’s Jupiter Icy Moons Explorer (Juice) mission have captured detailed images of the comet, offering unprecedented insight into this rare cosmic phenomenon.
Hubble reveals the comet’s teardrop-shaped coma
Hubble initially captured images of 3I/ATLAS soon after it was identified in July 2025, at a distance of approximately 277 million miles from Earth. Employing its Wide Field Camera 3, Hubble recorded a unique teardrop-shaped dust halo emanating from the comet’s frozen core. This luminous envelope of material emphasizes the continuous sublimation of gases and particles as the comet heated up while nearing the sun.
Observations persisted on November 30, when the comet was 178 million miles (286 million kilometers) away from Earth. Hubble obtained even more precise images, enabling astronomers to examine the comet’s changing form and gas emissions with increased detail. These images are crucial for monitoring the comet’s trajectory and comprehending how interstellar objects react when subjected to the sun’s energy.
Juice spacecraft captures dual tails
While Juice’s primary mission is to study Jupiter and its largest moons—Ganymede, Callisto, and Europa, which may host subsurface oceans capable of supporting life—it took advantage of its trajectory to observe comet 3I/ATLAS in early November. From a distance of about 41 million miles (66 million kilometers), the spacecraft used five scientific instruments and its onboard Navigation Camera (NavCam) to record the comet’s activity.
The spacecraft transmitted a portion of the NavCam data ahead of the full download schedule. The images reveal a bright coma enveloping the comet, along with two distinct tails: a plasma tail consisting of electrically charged gases and a fainter dust tail of solid particles. This dual-tail structure is characteristic of comets within our solar system, but observing it on an interstellar object provides valuable clues about its physical and chemical properties.
Juice’s comprehensive dataset, anticipated to reach Earth between February 18 and 20, will encompass high-resolution images, composition analysis, and particle measurements. This information might illuminate the comet’s origin and the environment it traversed before entering our solar system.
Close approach to Earth and visibility
Comet 3I/ATLAS is projected to pass within 167 million miles (270 million kilometers) of Earth on December 19, positioning it on the opposite side of the sun and posing no threat to our planet. For context, the Earth orbits roughly 93 million miles (150 million kilometers) from the sun, highlighting that the comet will remain safely distant while still observable by telescopes and space missions.
Even after its nearest pass, the comet is anticipated to stay visible for numerous months as it proceeds on its path out of the solar system. During this time, observations will enable scientists to examine how the comet engages with solar radiation and the solar wind, further enhancing our comprehension of interstellar bodies.
Understanding the Beginnings of Interstellar Phenomena
Studying 3I/ATLAS provides a rare window into material formed outside our solar system. The comet’s icy core, enveloped in a halo of dust and gas, may contain clues about the chemical makeup of distant star systems. The tails, driven by heat and solar radiation, allow researchers to examine how volatile compounds react when exposed to the sun.
Every interstellar traveler offers distinct chances to contrast the formation of our solar system with that of other stellar systems. By examining the composition of 3I/ATLAS, researchers aim to reveal insights into the kinds of materials present in different regions of the galaxy and their evolution over time.
Prospects for future studies and research opportunities
The data collected by Hubble and Juice represent only a portion of the potential insights this comet can provide. Upcoming observations from both ground-based and space-based telescopes will help track the comet’s motion, measure its brightness variations, and refine models of its trajectory.
As additional data are received from Juice, scientists expect to gain insights into the dispersion of dust and gas within the coma and tails, the dimensions and spin of the comet’s nucleus, and possible isotopic markers that might unveil the interstellar environment it emerged from. These discoveries could broaden our comprehension of planetary formation, interstellar chemistry, and the frequency of comets moving between star systems.
The singular chance offered by 3I/ATLAS highlights the significance of synchronized observations from various space missions. By merging high-resolution imaging from Hubble with in-situ data from Juice, researchers are able to construct a detailed depiction of an object that has journeyed through the galaxy to arrive at our solar system.
In conclusion, comet 3I/ATLAS offers an extraordinary glimpse into the wider universe beyond our solar system. Its teardrop-shaped coma, dual tails, and interstellar origins provide invaluable data for astronomers, while its safe approach allows continued observation from Earth. The ongoing analysis of images and measurements from Hubble and the Juice spacecraft promises to deepen our understanding of how interstellar objects behave, paving the way for future discoveries about the cosmos.
