With the aid of the NICAM (Near-infrared camera), astronomers aboard the NASA/ESA/CSA James Webb Space Telescope have captured new images of the Sombrero Galaxy.
The new Webb/Nircam image reveals the prominent bulge of the Sombrero Galaxy, which consists of a dense cluster of stars at the galaxy’s center, while dust on the outer rim obscures some starlight. Image credits: NASA/ESA/CSA/STSCI.
The Sombrero Galaxy is situated approximately 28 million light years away in the Virgo constellation.
Also referred to as Messier 104, M104, or NGC 4594, this galaxy was discovered by the French astronomer Pierre Méchain on May 11, 1781.
It has a diameter of 49,000 light years, which is nearly twice that of our Milky Way galaxy.
The Sombrero Galaxy displays features typical of both spiral and elliptical galaxies.
It features a spiral arm and a prominently illuminated central bulge that resembles two hybrid forms.
Viewed edge-on, the Sombrero Galaxy sits at a six-degree angle south of its plane, with the dark dust lane creating a striking visual.
“Researching galaxies like the Sombrero through various wavelengths, including near-infrared with Webb, as well as data from the NASA/ESA Hubble Space Telescope, assists us in understanding the formation and evolution of this intricate system and its constituent materials,” said an astronomer.
“Unlike Hubble’s visible light images, the dust disk is not detectable in Nircam’s new near-infrared imagery.”
“This is because the longer wavelengths of infrared radiation emitted by stars penetrate dust more effectively, resulting in less obstruction of stellar light.”
“In mid-infrared images, the dust actually emits light.”
“Research indicates that the smooth surface and subtle glow of the galaxy hint at a turbulent history,” the astronomer noted.
“Anomalies discovered over the years suggest that this galaxy may have been involved in a violent merger with at least one other galaxy.”
The Sombrero galaxy is home to approximately 2,000 globular clusters, which are dense collections of hundreds of thousands of ancient stars bound together by gravity.
“Spectroscopic analyses reveal unexpected variances among the stars in these globular clusters.”
“Stars that form under similar conditions and from the same materials typically share similar chemical ‘fingerprints,’ such as the same abundance of elements like oxygen or neon.”
“However, the apparent variations among stars in this galaxy’s globular clusters are notably significant.”
“The merging of various galaxies over billions of years can explain these discrepancies.”
“Further evidence supporting the merger hypothesis is seen in the distorted look of the galaxy’s inner disk.”
“While our observations categorize it as edge-on, it actually gives the impression of being at quite an angle,” they added.
“Seen from six degrees off the galaxy’s equator, our viewpoint allows us to glimpse it slightly from above, rather than straight on.”
“From this vantage point, the inner disk appears tilted inward, resembling a funnel rather than a flat plane.”
“Nircam’s advanced resolution reveals parts of the galaxy that look red, indicating the presence of red giants—cooler stars that shine brightly due to their larger surface areas.”
“These red giants are also visible in mid-infrared, but the smaller blue stars in the near-infrared become indistinguishable at longer wavelengths.”
“Additionally, Nircam’s images capture a variety of galaxies in differing shapes and colors scattered across the backdrop of space.”
This color diversity offers astronomers insights into characteristics such as their distances from Earth.
Source: www.sci.news