Webb Telescope's Second Anniversary Reveals Interacting Galaxies
On the occasion of its second science anniversary, NASA's James Webb Space Telescope showcases a captivating image of two interacting galaxies, emphasizing the telescope's ability to capture vivid portraits of the cosmos. This milestone marks a moment of immense progress in astronomical discoveries facilitated by Webb.
Since its unveiling two years ago by President Biden and Vice President Harris, the telescope has truly unlocked the mysteries of the universe. The remarkable images and comprehensive data collected by Webb have provided astronomers worldwide with a plethora of intriguing findings.
"In just two years, Webb has completely transformed our perception of the universe, enabling ground-breaking scientific research that surpasses our wildest expectations," remarks Mark Clampin, the director of the Astrophysics Division at NASA Headquarters.
Webb's specialty in observing infrared light, beyond human eye capabilities, presents an exquisite revelation of the interacting galaxies classified as Arp 142. The breathtaking imagery combines near-infrared and mid-infrared light captured by the telescope's instruments, NIRCam and MIRI respectively. The enigmatic haze depicted in blue, which seamlessly merges stars and gas, clearly illustrates the ongoing cosmic dance between these galaxies.
The long-lasting interaction of the galaxies, known individually as the Penguin (NGC 2936) and the Egg (NGC 2937), was initiated between 25 and 75 million years ago during their first celestial encounter. Their complex choreography involves multiple loops, eventually culminating in a future merger several hundred million years from now.
Prior to their initial approach, the Penguin exhibited a spiral shape. However, today it has transformed into a galactic entity with a gleaming center resembling an eye, alongside extended unwound arms portraying a beak, head, backbone, and a fanned-out tail. Notably, the Penguin still contains considerable amounts of gas and dust. The gravitational pull between the interacting galaxies induced consequential disturbances within the Penguin's gas and dust, resulting in the formation of new stars. Regions rich in star formation are observable in two key areas: the beak and tail feathers.
Surrounding these nascent stars is smoke-like material composed of carbon-containing molecules, detectable due to Webb's exceptional capabilities. Additionally, fainter deeper orange arcs become visible, representing the presence of dust extending from the Penguin's beak to its tail feathers.
In contrast, the Egg has maintained its compact shape, largely unaltered by the interaction. As an elliptical galaxy, it hosts aging stars with less gas and dust available for the formation of new stars. The lack of significant disturbance and transformation in the Egg's appearance can be attributed to its comparable mass with the Penguin, preventing consumption or distortion by its spiral counterpart.
Approximately 100,000 light-years apart, the Penguin and the Egg inhabit close proximity in astronomical terms. To put this into perspective, our own Milky Way galaxy and its nearest neighbor, the Andromeda Galaxy, are separated by about 2.5 million light-years. While the Penguin and the Egg will continue their interaction, future estimates indicate that the Milky Way and Andromeda will also experience a similar encounter, but not for another 4 billion years.
Observing the panoramic view extended beyond the interacting galaxies reveals another fascinating facet. At the top right of the image, a galaxy named PGC 1237172, distinct from the interaction, comes into view. This edge-on galaxy, situated 100 million light-years closer to Earth, boasts a youthful composition abundant with new, blue stars. Spectacularly, switching to Webb's mid-infrared image causes PGC 1237172 to all but disappear. The prevalence of cooler, older stars and copious amounts of dust within the mid-infrared wavelength obscure the visibility of this galaxy.
While admiring the image, one cannot overlook the multitude of distant galaxies dominating the background. Webb's unprecedented sensitivity and resolution enable the detection of spiral, oval, and even undefined dot-shaped galaxies. This feat underscores the power and precision of the telescope's infrared instruments. Compared to previous observations combining data from NASA's retired Spitzer Space Telescope and Hubble Space Telescope, Webb's unrivaled perspective showcases more distant, redder, and dustier galaxies, expanding our understanding of the universe.
As Webb continues its transcendental journey, capturing extraordinary glimpses of the cosmos, its contributions are bound to deepen and widen our knowledge of the expansive universe we inhabit.