Tag Archives: quasars

Record-Breaking Universe Map Reveals 47 Million Galaxies and Quasars

Posted on by
Reply
DESI Map of the Universe

The DESI project has produced an unprecedented map of galaxies and quasars across the cosmos, with Earth positioned at the center.

Credit: Claire Laman/DESI collaboration

The Dark Energy Spectrometer (DESI) has recently completed a monumental five-year survey, documenting over 47 million galaxies and quasars. This expansive dataset contributes to the most precise map of the universe ever constructed, potentially unraveling the perplexing enigma of weakening dark energy — a factor that could radically alter our understanding of the universe.

Since its launch in 2021 at Kitt Peak National Observatory in Arizona, DESI has outperformed expectations, initially set to gather data from 34 million celestial bodies. Due to its exceptional efficiency, many faint galaxies, located at considerable distances, have been observed with as few as 100 to 200 photons.

David Schlegel and his team at Lawrence Berkeley National Laboratory assert that this invaluable data boosts our comprehension of cosmic structures by nearly tenfold, surpassing previous maps that documented only 5 million galaxies.

“Throughout our careers, we’ve continuously expanded our mapping capabilities to include ten times more data every decade,” he states. “We anticipate completing a comprehensive mapping of all observable galaxies within 10 billion light-years by 2061 if we maintain this trajectory.”

Although the primary study is concluded, accessible analysis from this new data will take an additional year to finalize. DESI will persist in its data collection efforts for at least another two-and-a-half years, with planned upgrades to extend its operational life into the 2030s. “This instrument remains the premier technology for such research,” he adds.

Currently, DESI’s cosmic mapping spans 14,000 square degrees, with aspirations to cover up to 17,000 square degrees. Given that the entire celestial sphere is over 41,000 square degrees, certain areas remain challenging to observe due to the brightness of nearby astronomical entities, including our home galaxy, the Milky Way.

This groundbreaking dataset will empower scientists to analyze and compare the distribution of galaxies from both the ancient past and the present, potentially yielding insights into the nature of dark energy — which constitutes roughly 70% of our universe. DESI’s initial findings for 2024 suggest an intriguing possibility that dark energy is not static but may be diminishing over time.

Should dark energy indeed prove to be weakening, it could significantly disrupt the established lambda-CDM model of cosmology. The culmination of DESI’s data will provide a robust framework for a deeper investigation into these phenomena.

Ofer Lahav, a professor at University College London, recalls a time when access to data like DESI’s was merely a dream. “Four decades ago, during my PhD at Cambridge, we sampled thousands of galaxies, and the thirst for data was immense. Now, with a plethora of data available, analyzing it presents a different set of challenges for my students,” he remarks.

As the deluge of data grows, breakthroughs regarding the fundamental nature of the universe are anticipated. This influx may also illuminate rare cosmological events, opening doors to fresh avenues of research.

Astronomy in Chile: A Must-Visit Destination

Discover Chile’s astronomical wonders. Explore the world’s most advanced observatory and enjoy stargazing beneath the clearest skies available on Earth.

Topics:

Source: www.newscientist.com

Astronomers produce the most extensive map of quasars in the universe ever recorded

Posted on by
Reply

of new mapThis quasar, called Quaia, contains about 1,295,502 quasars from across the visible universe and could help astronomers better understand the properties of dark matter.

story fisher other. This is an all-sky quasar catalog that samples the largest comoving volume of any existing spectroscopic quasar sample.Image credit: Story Fisher other., doi: 10.3847/1538-4357/ad1328.

Quasars are powered by supermassive black holes at the centers of galaxies and can be hundreds of times brighter than entire galaxies.

When the black hole's gravity kicks up nearby gas, the process creates a very bright disk, and sometimes a jet of light, that can be observed with telescopes.

The galaxies that quasars live in are hidden in huge clouds of invisible dark matter.

The distribution of dark matter gives insight into how much dark matter is present in the universe and how strongly clustered it is.

Astronomers compare these measurements across cosmic time to test current models about the composition and evolution of the universe.

Quasars are so bright that astronomers use them to map dark matter in the distant universe and fill in a timeline of how the universe evolved.

For example, scientists are already comparing the new quasar map to the Cosmic Microwave Background, the oldest snapshot of light in the universe.

As this light travels to us, it is bent by an intervening web of dark matter (the same web drawn by quasars), and by comparing the two, scientists can determine how matter changes over time. You can measure how strongly it clumps together.

“The new quasar catalog differs from all previous catalogs in that it provides the largest volumetric three-dimensional map in the history of the universe,” said David, an astronomer at the Center for Computational Astrophysics at the Flatiron Institute in New York.・Professor Hogg said. University.

“This is not the catalog with the most quasars or the highest quality quasar measurements, but it is the catalog with the largest total volume of the universe mapped.”

Professor Hogg and his colleagues constructed the Quasar map using data from the third data release of ESA's Gaia mission, which includes 6.6 million quasar candidates, as well as data from NASA's Wide-field Infrared Explorer and Sloan Digital Sky Survey. did.

By combining the datasets, contaminants such as stars and galaxies were removed from Gaia's original dataset and the distance to the quasar was determined more precisely.

“We were able to measure how matter clustered in the early universe with as much precision as those from major international research projects. Data as a 'bonus' from the Milky Way This is quite remarkable considering that we got . We are focusing on the Gaia project,” said Dr. Kate Storey-Fisher, a postdoctoral researcher at the International Physics Center Donostia.

“It's very exciting to see this catalog spurring so much new science.”

“Researchers around the world use quasar maps to measure everything from variations in the initial density that seeds the cosmic web, to the distribution of voids in the universe, to the movement of our solar system through space. ”

Astronomers have created a map showing where dust, stars, and other nuisances are expected to obstruct the view of certain quasars. This is important in interpreting quasar maps.

“This catalog of quasars is a great example of how productive astronomy projects can be,” Professor Hogg said.

“Gaia was designed to measure stars in our galaxy, but it also discovered millions of quasars, giving us a map of the entire universe.”

of result will appear in astrophysical journal.

_____

Kate Story Fisher other. 2024. Quair, Gaia-unWISE quasar catalog: all-sky spectroscopic quasar samples. APJ 964, 69; doi: 10.3847/1538-4357/ad1328

Source: www.sci.news