Tag Archives: chandra

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

The Importance of Saving the Chandra Space Telescope

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Chandra X-ray Observatory

NASA/CXC & J. Vaughan

On July 23, 1999, just a few months before I enrolled in college, NASA’s Space Shuttle Columbia launched with a precious cargo. Not only was it carrying a crew led by the first woman, Eileen Collins, its primary purpose was to launch the Chandra X-ray Observatory, a new flagship space telescope. Chandra This was the heaviest payload ever carried by a NASA space shuttle and turned out to be one of the last two missions completed by Columbia before it tragically exploded after launch on February 1, 2003.

Chandra is the first, and so far only, NASA mission named after a person of color. The late theoretical astrophysicist and Nobel Prize winner Subramanian Chandrasekhar was called Chandra by his friends and family. Chandrasekhar, whose last name means “crown of the moon,” made many important contributions to astrophysics. His most important work was discovering the Chandrasekhar limit, the maximum mass a white dwarf remnant can have before it collapses into a black hole.

It's fitting that an X-ray telescope mission should be named after a scientist who has spent his life thinking about the physics of black holes, as X-ray telescopes play a key role in black hole research. X-rays are high-energy light waves, which means they are produced in extremely energetic environments, such as those around black holes, where extreme distortions of space-time cause strong gravitational forces to accelerate particles to extremely high speeds. In other words, when we look at the universe through the lens of X-ray astronomy, rather than the visible wavelengths of traditional telescopes, we see an entirely different universe.

Importantly, X-ray astronomy can't be done from the Earth's surface, because it's blocked by the Earth's atmosphere. That's good for human health, but not so good for astronomers. Chandra is therefore a reminder of just how important it is to keep low Earth orbit debris-free, so we can safely launch space telescopes that perform tasks that are simply beyond the control of the Earth.

I feel like I have grown up with Chandra. And not just because I attended college at Chandra headquarters, now known as the Center for Astrophysics (CfA) in Massachusetts, and was often mistakenly called “Chandra”. One of my lab projects as an undergraduate was to adjust the light-gathering part of Chandra's backup camera. The following year, I wrote my undergraduate thesis under the guidance of Martin Elvis, an expert in X-ray astronomy. My research focused on the particle winds that fly out of galaxies that contain supermassive black holes. I used Chandra data to analyze what structures these galaxies take. It is true that Martin's letter helped me secure admission to at least one PhD program. In other words, without Chandra, my career may never have begun.

I am one of thousands of scientists in the fields of physics and astronomy who can tell similar stories of how Chandra data was the foundation of the early stages of their careers, or how they have dedicated their lives to using Chandra to explore the mysteries of the universe. Laura Lopez Ohio State University has used Chandra for many years to study supernovae. Daniel Castronow a staff scientist at CfA, is doing the same thing. The three of us were postdoctoral fellows at MIT and are from a generation that grew up on the power of the Chandra X-ray Observatory.

Now, after 25 years in orbit, Chandra is under threat – not the reality of space debris and aging equipment, but the political climate. US President Joe Biden's appointees to head NASA recently tried to scale back the project, but the scientific community worked with Congress to save the mission. But things will never be the same. A compromise proposal, which has not yet been signed into law, would drastically cut Chandra's funding and limit its scientific scope. Notably, there is no scientific basis for opposing the plan. Recommendations They have an army of expert advisers, but NASA has cut funding it had already promised to scientists, leaving PhD students and postdocs without enough money to cover living expenses.

Chandra deserves better. And so does its global audience. Thanks to Chandra, we have discovered new neutron stars and learned about their interiors. Our knowledge of black holes has blossomed. We have gained a deeper understanding of stellar life cycles and the history of our galaxy. We have been able to study galaxy clusters and learn how dark matter is distributed within them, putting the Milky Way in context. There is still time to save Chandra, a monument to human ingenuity. The fact that it is still going strong after 25 years should be celebrated and it should be honoured by the continuation of the mission.

Chanda's Week

What I'm Reading

My friend is Andrea Kindried. From Slavery to the Stars: A Personal Journey And it's beautiful.

What I'm seeing

I've seen some classic episodes Star Trek: The Next Generation Like “Remember Me”.

What I'm working on

I am developing a new course that prepares students to understand science in a social context..

Chanda Prescod Weinstein is an associate professor of physics and astronomy and a faculty member of women's studies at the University of New Hampshire. Her latest book is A Disordered Universe: A Journey into Dark Matter, Space-Time, and Dreams Deferred.

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Source: www.newscientist.com

Chandra celebrates its 25th anniversary in space with 25 breathtaking photos

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In celebration of our 25th anniversary NASA’s Chandra X-ray ObservatoryThe Chandra team has released 25 new images of cosmic objects and phenomena.

This collection of images was released to celebrate Chandra’s 25th anniversary. Image credit: NASA/CXC/SAO.

On July 23, 1999, the Space Shuttle Columbia launched into orbit carrying Chandra, the heaviest payload carried by the shuttle at the time.

Under the command of Commander Eileen Collins, the astronauts aboard Columbia successfully placed Chandra into a highly elliptical orbit roughly equivalent to one-third the distance to the Moon.

“For a quarter century, Chandra has made one amazing discovery after another,” said Dr. Pat Slane, director of the Smithsonian Astrophysical Observatory’s Chandra X-ray Center.

“Astronomers have used Chandra to explore mysteries that were unknown when the telescope was built, including exoplanets and dark energy.”

“Chandra is a great success story for humanity and its pursuit of knowledge,” said Dr. Andrew Schnell, acting Chandra project manager at NASA’s Marshall Space Flight Center.

“The telescope’s incredible achievements have been made possible through the hard work and dedication of the team.”

The new series of images is a sample of the roughly 25,000 observations Chandra has taken during its quarter-century in space.

In 1976, Riccardo Giacconi and Harvey Tananbaum first proposed the mission that would become Chandra to NASA.

Eventually, Chandra was selected as one of NASA’s great observatories, along with the Hubble Space Telescope, the now-retired Compton Gamma Ray Observatory, and the Spitzer Space Telescope, each observing a different kind of light.

In 2002, Giacconi was awarded the Nobel Prize in Physics for his pioneering contributions to astrophysics that led to the discovery of cosmic X-ray sources and laid the foundation for the development and launch of Chandra.

Today, astronomers continue to use Chandra data in conjunction with other powerful telescopes, including the NASA/ESA/CSA James Webb Space Telescope and NASA’s Imaging X-ray Polarimetry Explorer (IXPE).

“On behalf of the STS-93 crew, we are incredibly proud of the Chandra X-ray Observatory and the talented team that built and launched this astronomical gem,” said Eileen Collins, commander of Space Shuttle Columbia, which launched Chandra into space in 1999.

“Chandra’s discoveries have continued to amaze and inspire us for the past 25 years.”

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This article is a version of a press release provided by NASA.

Source: www.sci.news