James Webb Space Telescope Reveals Detailed Views of Spiral Galaxies
Newly unveiled images from the James Webb Space Telescope offer strikingly detailed views of 19 nearby spiral galaxies, providing fresh insights into star formation, galactic structure, and evolution. Shared by scientists affiliated with the Physics at High Angular resolution in Nearby GalaxieS (PHANGS) project, spanning multiple major observatories, the images reveal galaxies ranging from the closest, NGC5068, situated approximately 15 million light years away, to the farthest, NGC1365, positioned around 60 million light years distant.
Launched in 2021, the James Webb Space Telescope began data collection in 2022, focusing primarily on the infrared spectrum. In contrast to the still-operational Hubble Space Telescope, which observes in optical and ultraviolet wavelengths, Webb’s observations are reshaping our understanding of the early universe and delivering captivating celestial images.
Spiral galaxies, reminiscent of expansive pinwheels, are a prevalent galaxy type, with our own Milky Way belonging to this category. The recent observations, facilitated by Webb’s Near-Infrared Camera (NIRCam) and Mid-Infrared Instrument (MIRI), reveal approximately 100,000 star clusters and millions, if not billions, of individual stars.
University of Oxford astronomer Thomas Williams, leading the team’s data processing, emphasized the significance of these observations in shedding light on the initial stages of star formation. Webb’s ability to capture wavelengths beyond the visible spectrum enables a unique perspective, allowing scientists to explore the obscured realms within dusty clouds where stars are born.
Addressing the structure of spiral galaxies, Williams explained the role of bars extending from the galactic center, guiding gas toward the central black hole. This process, coupled with the sweeping motion of spiral arms, contributes to the growth of galaxies over time.
The images also mark a breakthrough by unveiling the intricate details of dust and gas clouds involved in star and planet formation. Notably, this high-resolution scrutiny extends beyond our galactic neighbors, the Large Magellanic Cloud and Small Magellanic Cloud.
Astronomer Janice Lee of the Space Telescope Science Institute noted the aesthetically stunning images also narrate a story about the cycle of star formation and feedback, revealing explosive activity and dust and gas clearing on different scales. The dynamic process of the overall star formation cycle becomes visually apparent, offering qualitative insights even to the general public.
Webb’s observations complement and expand upon the capabilities of the Hubble Space Telescope. By penetrating the dust-enveloped regions with its infrared vision, Webb allows scientists to study the complete system of galaxies, providing a more comprehensive understanding of their operations.