Tag Archives: Tarantula

Hubble Discovers Dusty Clouds in the Tarantula Nebula

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The stunning new image from the NASA/ESA Hubble Space Telescope reveals intriguing details of the Tarantula Nebula, a dynamic region of star formation located in the Large Magellanic Cloud.

This Hubble image showcases part of the Tarantula Nebula, located about 163,000 light years away in the Dorado constellation. The colorful image is a composite of various exposures captured by Hubble’s Wide Field Camera 3 (WFC3) across ultraviolet, near-infrared, and spectral optical ranges. It is based on data collected using four different filters. Colors have been assigned by applying various hues to each monochromatic image produced by the individual filters. Image credits: NASA/ESA/Hubble/C. Murray.

The Tarantula Nebula is situated roughly 163,000 light years from the southern constellation of Dorado.

Also known as NGC 2070 or 30 Dorados, this nebula is part of the expansive Magellanic Cloud, which is one of our closest galactic neighbors.

The nebula’s brilliant glow was first observed in 1751 by French astronomer Nicolas Louis de Lacaille.

At its core lies some of the most massive stars known, with some reaching up to 200 solar masses, making this region ideal for studying how gas clouds collapse under gravitational forces to give rise to new stars.

“The Tarantula Nebula is the largest and brightest area of star formation not only within the Large Magellanic Cloud but also among the entire group of nearby galaxies that include the Milky Way,” astronomers associated with Hubble stated.

“Within the nebula are some of the most massive stars discovered, some of which are approximately 200 times the mass of our Sun.”

“The scene depicted here is located far from the nebula’s center, where the superstar cluster known as R136 resides, but is quite close to a rare star called the Wolf-Rayet Star.”

“The Wolf-Rayet star is an enormous star that has shed its outer hydrogen layers; it is extremely hot, bright, and generates a dense, powerful wind,” they elaborated.

The Tarantula Nebula is frequently observed by Hubble, and its multi-wavelength capabilities play a crucial role in capturing the intricate details of the nebula’s dusty cloud formations.

“The data used to produce this image come from an observational program known as Scylla, which is named after the multi-faceted sea monster from the Greek mythology of Ulysses,” the astronomer noted.

“The Scylla program was developed to complement another Hubble observational initiative called Ulysses (the Ultraviolet Legacy Library of Young Stars as a fundamental criterion).”

“While Ulysses focuses on giant young stars in the small Magellanic Cloud, Scylla explores the gas and dust structures surrounding these stars.”

Source: www.sci.news

The Tarantula Nebula is captured in the deepest X-ray images ever by Chandra

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The Tarantula Nebula is the most important star-forming complex in local galaxy groups, including the Milky Way, the large Magellan cloud and the Andromeda galaxy. At its heart is the highly rich young star cluster R136, which contains the most huge known stars. The stellar wind and supernova carved the tarantula nebula into an astonishing display of arcs, pillars and bubbles.

This image of Chandra shows the Tarantula Nebula. Image credits: NASA/CXC/Penn State/Townsley et al.

The Tarantula Nebula is approximately 170,000 light years away from the southern constellation of Dorado.

The nebula, also known as the NGC 2070 or 30 Dorados, is part of the large Magellan cloud.

“The Tarantula Nebula is the most powerful and large star-forming region in the local galaxy group,” says Matthew Povich, astronomers at Polytechnic University in California, and Pennsylvania State University astronomers Raysa Townsley and Patrick Brose. I said that.

“The nebulae differ from the massive star-forming regions of the Milky Way galaxy. There is no different galactic rotation to tear the complex, so it provides fuel for at least 25 million years to supply large star-forming. It lasts and grows at the confluence of two super-huge shells, reaching a starburst percentage.”

“Today, it is dominated by a central large cluster R136, 1-2 million years ago, and includes the wealthiest young star population of the local group, and the largest star included It's here.”

“In contrast to the large star-forming regions of the galaxy, the location of the large Magellan tarantula nebula provides a low metallic starburst laboratory with low absorption and well-known distances. I'll do that.”

https://www.youtube.com/watch?v=ivd_gmu9p8c

New X-ray images of the tarantula nebula contain data from the large Chandra program, including observation times of approximately 23 days, with Chandra previously performed in the nebula for over 1.3 days.

The 3,615 x-ray sources detected by Chandra include large stars, double star systems, bright stars still in the process of formation, and much smaller clusters of young stars.

The authors also identified the oldest X-ray pulsar candidate ever detected in Tarantula Nebula, PSR J0538-6902.

“There are a ton of diffuse hot gases found in x-rays that come from various sources that arise from the giant star winds and gases expelled by supernova explosions,” the astronomer said.

“This dataset is ideal for the near future to study diffuse X-ray emissions in star-forming regions.”

Team's paper It will be published in Astrophysical Journal Supplement Series.

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Raysa K. Townsley et al. 2025. TARANTULA – Revealed by X-ray (T-REX). APJin press; Arxiv: 2403.16944

Source: www.sci.news