Tag Archives: galaxy

Hubble Space Telescope Captures Stunning Image of the Magellanic Spiral Galaxy

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NASA has released a surprising new image of the little-known dwarf galaxy LEDA 42160 taken by the NASA/ESA Hubble Space Telescope.

This Hubble image shows dwarf galaxy LEDA 42160 located 53.5 million light-years away in the constellation Virgo. Image credit: NASA / ESA / Hubble / M. Sun.

LEDA 42160 Located approximately at 53.5 million light years It is located in the constellation Virgo, far from Earth.

Also known as MCG+02-32-161, VCC 1725, ALFALFA 3-327, or AGC 220849, this galaxy is a member of a massive galaxy cluster called the Virgo Cluster.

“LEDA 42160 is one of many astronomers to force their way through the relatively dense gas in the Virgo cluster,” Hubble astronomers said.

“The pressure exerted by this intergalactic gas, known as the Ram pressure, has a dramatic effect on star formation in LEDA 42160, which is currently being studied using Hubble.”

“LEDA 42160 falls into the following categories.” magellanic spiral galaxyIn the de Vaucouleurs galaxy classification system, it is abbreviated as Sm. ”

“Magellanic spiral galaxies can be further classified as barred galaxies (SBm), barred galaxies (SAm), and weakly barred galaxies (SABm), where the ‘bar’ refers to the elongated bar at the center of the galaxy. ”

“Generally speaking, the Magellanic Spiral Galaxy is a dwarf galaxy with only one spiral arm.”

“They are named after their prototype SBm galaxy, the Large Magellanic Cloud.”

“The Magellanic Spiral Galaxy is an interesting example of how the classification of galaxies is actually more nuanced than just spiral, elliptical, irregular, etc.”

Color images of LEDA 42160 consist of observations from. Hubble’s advanced survey camera (ACS) in the near-infrared and optical portions of the spectrum.

Two filters were used to sample different wavelengths. Color is obtained by assigning different hues to each monochromatic image associated with an individual filter.

Source: www.sci.news

The Hubble Space Telescope observes a small spiral galaxy from an edge-on perspective

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NASA has released a beautiful photo of spiral galaxy NGC 4423 taken by the Hubble Space Telescope.

This Hubble image shows spiral galaxy NGC 4423 about 55 million light-years away in the constellation Virgo. Image credit: NASA / ESA / Hubble / M. Sun.

NGC4423 It is located in the constellation Virgo, about 55 million light years away.

Also known as IRAS 12246+0609, LEDA 40801, or VCC 971, this spiral galaxy is approximately 35,000 light-years in diameter.

beginning spotted Discovered on April 13, 1784 by German-born British astronomer William Herschel, NGC 4423 is a member of the Virgo cluster.

“In the new image, NGC 4423 appears to have a highly irregular, tubular shape, so it may be surprising to learn that it is actually a spiral galaxy,” Hubble astronomers said in a statement.

“Knowing this, we can distinguish between the galaxy's denser central bulge and the less dense surrounding disk, which makes up the spiral arms.”

“If you looked at NGC 4423 head-on, it would resemble the shape we most associate with spiral galaxies: a spectacular curve spreading out from a bright center and interspersed with darker, dimmer, less populated regions. This is the arm you are drawing.”

“However, when observing the sky, we are constrained by the relative position of the earth and the object we are observing. We cannot simply change the position of the earth to get a better view of NGC 4423 head-on. .”

“Of course, celestial bodies are not stationary in space; they often move at very high speeds relative to each other.”

“This may suggest that even if the galaxy is moving in a coincidental direction relative to Earth, if you travel far enough you may be able to see it from a substantially different perspective. I don’t know.”

“While this is theoretically possible, in reality the distances in the universe are too long and human lifespans are too short for significant differences in relative alignment to occur.”

“In other words, this is more or less the view of NGC 4423 that we will always have.”

New images of NGC 4423 consist of observations from. Hubble's advanced survey camera (ACS) in the near-infrared and optical portions of the spectrum.

This is based on data obtained through two filters. Color is obtained by assigning different hues to each monochromatic image associated with an individual filter.

Source: www.sci.news

Scientists observe massive outburst from supermassive black hole in far-off galaxy cluster

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Some of the gas erupts from the supermassive black hole located at the center of galaxy cluster SDSS J1531+3414 (abbreviated SDSS J1531) until it reaches a temperature high enough to form numerous star clusters. Cooled down.

Multi-wavelength image of the massive galaxy cluster SDSS J1531+3414.Image credits: NASA / CXC / SAO / Omorui other. / STScI / Tremblay other. / Astron / Loafers / NASA / CXC / SAO / N. Walk.

SDSS J1531 is a huge galaxy cluster containing hundreds of individual galaxies and a huge reservoir of hot gas and dark matter.

At the center of SDSS J1531, two of the cluster's largest galaxies collide with each other.

Surrounding these merging giants are 19 large star clusters called superclusters, arranged in an “S” shape similar to beads on a string.

Dr. Osase Omoruyi and colleagues at Harvard University and the Smithsonian Center for Astrophysics are using NASA's Chandra X-ray Observatory, the LOFAR radio network, and other telescopes to discover how this chain of unusual star clusters formed. I found out what happened.

The discovery of evidence of an ancient mega-eruption in SDSS J1531 provided important clues.

The eruption may have occurred when a supermassive black hole at the center of one of the large galaxies produced a very powerful jet.

As the jet traveled through space, it pulled surrounding hot gas away from the black hole, creating a huge cavity.

“We're already observing this system as it existed 4 billion years ago, when the Earth was just forming,” Omoruyi said.

“This ancient cavity is a fossil of the black hole's influence on its host galaxy and its surroundings, and tells us about important events that occurred almost 200 million years ago in the history of this star cluster.”

Evidence for the cavity comes from bright X-ray emission “wings” seen on Chandra that track dense gas near the center of SDSS J1531.

These wings form the edges of the cavity, and the less dense gas between them is part of the cavity.

LOFAR shows radio waves from the remains of the jet's energetic particles filling a huge cavity.

Taken together, these data provide convincing evidence for an ancient great explosion.

Astronomers also discovered cold and warm gas near the cavity's opening, detected by the Atacama Large Millimeter and Submillimeter Array (ALMA) and Gemini North Telescope, respectively.

They argue that some of the hot gas pushed out of the black hole eventually cooled down to cold, warm gas.

They believe that the tidal effects of the two galaxies merging compressed the gas along a curved path, forming the star cluster in a “string-bead” pattern.

“We reconstructed the sequence of events that may have occurred within this cluster over a wide range of distances and times,” said Dr. Grant Tremblay, also of Harvard University and the Smithsonian Center for Astrophysics.

“It started when a black hole, just one light-year in diameter, formed a cavity about 500,000 light-years wide.”

“This single event triggered the formation of young star clusters almost 200 million years later, each several thousand light-years in diameter.”

Although the authors only looked at the radio waves and cavity from one jet, black holes typically fire two jets in opposite directions.

They also observed radio emissions further out from the galaxy that could be the remains of a second jet, but it was unrelated to the detected cavity.

They speculate that radio and X-ray signals from other eruptions may have diminished to the point where they could no longer be detected.

“We believe the evidence for this large-scale eruption is strong, but further observations from Chandra and LOFAR will confirm the case,” Dr. Omoruyi said.

“We hope to learn more about the origins of the cavities we have already detected and find the cavities we expect to find on the other side of the black hole.”

a paper Regarding the survey results, astrophysical journal.

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Omase Omorui other. 2024. A “string bead” star formation associated with one of the most powerful she-AGN outbursts observed in the Cool Core Galaxy Cluster. APJ, in press. arXiv: 2312.06762

Source: www.sci.news

Hubble’s Discovery: Dwarf Spiral Galaxy Found in the Coma Constellation

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Astronomers using the NASA/ESA Hubble Space Telescope have captured stunning images of the dwarf spiral galaxy IC 3476 in the constellation of Coma.

This Hubble image shows IC 3476, a dwarf spiral galaxy located 54 million light-years away in the constellation Coma. This image consists of observations made by Hubble's Altitude Survey Camera (ACS) in the near-infrared and optical parts of the spectrum. This is based on data obtained through his two filters. Color is obtained by assigning different hues to each monochromatic image associated with an individual filter. Image credit: NASA / ESA / Hubble / M. Sun.

IC 3476 It is located in the constellation Coma, approximately 54 million light-years from Earth.

This galaxy is first discovered It was proposed by German astronomer Arnold Schwassmann on November 22, 1900.

IC 3476, also known as IRAS 12301+1419 or LEDA 41608, is a member of the Virgo Cluster.

On the other hand, new Hubble images of the galaxy don't look quite as dramatic. The actual physical events occurring in IC 3476 are highly energetic.

“IC 3476 is undergoing a process known as ram pressure stripping, which promotes unusually high levels of star formation within the region of the galaxy itself,” the Hubble astronomers said.

“We tend to associate the letter 'ram' with the acronym RAM, which refers to random access memory in computing.”

“But ram pressure has a perfectly clear definition in physics: it is the pressure exerted on an object by the overall resistance of the fluid as it moves through some form of fluid.”

“If the entire galaxy is under ram pressure, then the galaxy is a 'celestial body', and the intergalactic medium or the intracluster medium (dust and gas that permeates the space between galaxies, in the latter case the intergalactic space) becomes a “celestial body”. fluid'. “

“Lamb pressure stripping occurs when gas is stripped from a galaxy by ram pressure,” the astronomers explained.

“Gas is absolutely key to star formation, so removing this gas could lead to reduced levels of star formation or even a complete cessation.”

“But the ram's pressure could also compress other parts of the galaxy, which could actually promote star formation.”

“This is what appears to be happening in IC 3476: no star formation appears to be occurring at the edges of the galaxy, which are bearing the brunt of the ram pressure separation, but in deeper regions of the galaxy, the rate of star formation slows down. It seems to be clearly above average. ”

Source: www.sci.news

Webb uncovers massive inactive galaxy with mature stars in the ancient cosmos

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The formation of galaxies through the stepwise hierarchical coassembly of baryons and cold dark matter halos is a fundamental paradigm underpinning modern astrophysics and predicts a significant decline in the number of giant galaxies in the early Universe. . Very massive quiescent galaxies have been observed 1 to 2 billion years after the Big Bang. These form between 300 million and 500 million years ago and are very limiting for theoretical models, as only some models can form massive galaxies this early. The spectrum of newly discovered quiescent galaxy ZF-UDS-7329 reveals features typical of much older stellar populations. Detailed modeling shows that the stellar population formed about 1.5 billion years ago, when dark matter halos with sufficient host mass had not yet assembled in the standard scenario. This observation may indicate the existence of an undetected early population of galaxies and potentially large gaps in our understanding of the nature of early stellar populations, galaxy formation, and/or dark matter.

This web image shows ZF-UDS-7329, a rare massive galaxy that formed very early in the universe. Image credit: Glazebrook other., doi: 10.1038/s41586-024-07191-9.

Galaxy formation is a fundamental paradigm underpinning modern astrophysics, and a significant decrease in the number of massive galaxies in the early universe is predicted.

Very large quiescent galaxies have been observed 1 to 2 billion years after the Big Bang, casting doubt on previous theoretical models.

Professor Carl Glazebrook, from Swinburne University of Technology, said: “We have been tracking this galaxy for seven years, observing it for hours with two of the largest telescopes on Earth to find out its age.” Ta.

“But it was too red and too faint to be measured. In the end, we had to go outside Earth and use the web to see its properties.”

“This was truly a team effort, from the infrared sky survey that began in 2010 to identifying this galaxy as an anomaly, and the many hours spent with the Keck Telescope and the Very Large Telescope. But we couldn’t confirm it, and finally, last year, we spent a lot of effort trying to figure out how to process the web data and analyze this spectrum.”

“We are now beyond the realm of possibility to have identified the oldest giant stationary monster deep in the universe,” said Dr Temmiya Nanayakkara, an astronomer at Swinburne University of Technology.

“This pushes the limits of our current understanding of how galaxies form and evolve.”

“The key question now is how do stars form so quickly, so early in the universe, and how do they form at a time when other parts of the universe are forming stars? “What kind of mysterious mechanism could cause it to suddenly stop forming?”

“Galaxy formation is determined primarily by how dark matter is concentrated.”

“The presence of these extremely massive galaxies in the early universe poses significant challenges to our standard model of cosmology.”

“This is because dark matter structures large enough to accommodate these massive galaxies are unlikely to have formed yet.”

“More observations are needed to help us understand how common these galaxies are and how massive they really are.”

“This could open new doors in our understanding of the physics of dark matter,” Professor Glazebrook said.

“Webb continues to discover evidence that massive galaxies form early.”

“This result sets a new record for this phenomenon. It’s very impressive, but it’s just one object. But we want to discover more. If I If we were to do this, it would seriously disrupt our understanding of galaxy formation.”

This finding is reported in the following article: paper Published in this week’s magazine Nature.

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K. Glazebrook other. A huge galaxy that formed stars at z ~ 11. Nature, published online on February 14, 2024. doi: 10.1038/s41586-024-07191-9

Source: www.sci.news

Hubble spots a group of newly formed stars at the end of a colliding galaxy

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Using the NASA/ESA Hubble Space Telescope, astronomers observed seven interacting galaxies with long tadpole-like tidal tails of gas, dust, and numerous stars. Hubble’s exquisite clarity and sensitivity to ultraviolet light led to the discovery of 425 clusters of newborn stars along these tidal tails. Each cluster contains up to a million newborn blue stars.

As seen in this Hubble image, galaxy AM 1054-325 has been distorted from its usual pancake-like spiral shape into an S-shape by the gravity of its neighboring galaxies. As a result, clusters of newborn stars form along tidal tails stretching across thousands of light years, resembling strings of pearls. Image credit: NASA/ESA/STScI/Jayanne English, University of Manitoba.

Tidal tail star clusters have been known for decades. When galaxies interact, gravitational tidal forces pull out long streams of gas and dust.

Two commonly used examples are antennas and rat galaxy It has elongated finger-like projections.

In a new study, astronomer Michael Rodrak of Randolph-Macon College and his colleagues combined new observational data with archival data to determine the age and mass of the tidal tail cluster.

Researchers discovered that these star clusters are very young, only 10 million years old.

And they appear to be forming at the same rate along a tail that extends over thousands of light years.

“It’s surprising that there are so many young objects in the tail,” said Dr Rodrak, lead author of the paper. paper Published in Royal Astronomical Society Monthly Notices.

“It tells us a lot about cluster formation efficiency.”

“With tidal tails, a new generation of stars will be built that otherwise would not exist.”

Tidal tails look like spiral arms of galaxies extending into space.

The outer part of the arm is pulled like taffy by the gravitational tug of war between a pair of interacting galaxies.

Before the merger occurred, galaxies may have been rich in dusty clouds of hydrogen molecules that simply remained inert.

However, during the encounter, the clouds swayed and clashed.

This compressed the hydrogen and triggered the firestorm of star birth.

“The fate of these strung star clusters is uncertain,” the astronomers said.

“They remain intact under gravity and can evolve into globular clusters that orbit outside the plane of the Milky Way.”

“Alternatively, they could disperse and form a stellar halo around their host galaxy, or be thrown off and become stars that wander between galaxies.”

“This pearly star formation may have been more common in the early Universe, when galaxies were colliding with each other more frequently.”

“These nearby galaxies observed by Hubble are proxies for what happened in the distant past, and are therefore laboratories for studying the distant past.”

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michael rodrak other. 2023. Star clusters in tidal dust. MNRAS 526 (2): 2341-2364; doi: 10.1093/mnras/stad2886

Source: www.sci.news

Hubble Observes Bright Blue Compact Galaxy

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Dazzling new photos from the NASA/ESA Hubble Space Telescope show the brilliant blue compact galaxy ESO 185-IG013 in the constellation Telescope.

This Hubble image shows ESO 185-IG013, a brilliant blue compact galaxy located approximately 260 million light-years away in the constellation Telescopium. Image credit: NASA / ESA / R. Chandar, University of Toledo / Gladys Kober, NASA and Catholic University of America.

ESO 185-IG013 is located about 260 million light-years away in the small constellation Telescopium in the south.

Also known as LEDA 63618, this galaxy is classified as a luminescent blue compact galaxy (BCG).

All stars in ESO 185-IG013 have a combined mass of more than 7 billion solar masses.

“BCG is a nearby galaxy that exhibits intense bursts of star formation,” Hubble astronomers said in a statement.

“It is unusually blue in visible light, distinguishing it from other high starburst galaxies that emit more infrared light.”

“We study BCG because it provides a relatively close equivalent to galaxies in the early universe.”

“This means BCG can help us learn about the formation and evolution of galaxies as they may have occurred billions of years ago.”

Astronomers imaged ESO 185-IG013 at ultraviolet, visible, and infrared wavelengths, revealing details about its past.

“There are hundreds of young star clusters in our galaxy, many of which are younger than 100 million years,” the astronomers said.

“Many star clusters are only 3.5 million years old – relatively infants compared to the time scale of our universe.”

“Scientists predict that many of these youngest clusters will not survive because young clusters often outgas so much that they can disappear.”

“The large number of young star clusters indicates that ESO 185-IG013 was part of a recent galaxy collision and merger.”

“Disturbances in the galaxy's structure, likely caused by intense interactions between gas and dust during the collision, are another sign.”

“This merger provided the system with large amounts of fuel for star formation, which continues today.”

“ESO 185-IG013 also contains a tidal shell, and the diffuse light surrounding its bright center is a common signal of galaxy mergers,” the researchers said.

“We think that in galaxy mergers, the smaller of the two interacting galaxies is blocked by the larger galaxy and loses most of its material.”

“This causes matter to be ejected and then pulled back in by the gravity of the larger galaxy.”

“The dense region where material rearranges is called a shell, and it contains many star clusters. In addition to the shell, ESO 185-IG013 boasts a tail of gas to the northeast.”

Source: www.sci.news

The Hubble Space Telescope captures a distorted spiral galaxy

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Astronomers using the NASA/ESA Hubble Space Telescope have obtained a surprising new perspective of spiral galaxy UGC 3912.

This Hubble image shows UGC 3912, a small spiral galaxy located 63 million light-years away in the constellation Canis Major. Image credit: NASA / ESA / C. Kilpatrick, Northwestern University / Gladys Kober, NASA and The Catholic University of America.

UGC 3912also known as IRAS 07315+0439 or LEDA 21303, lies. 19.3 megaparsecs It is located in the constellation Canis Minor (63 million light years) from Earth.

“UGC 3912 is classified as a spiral galaxy, but you wouldn't know it from this detailed Hubble image,” said Hubble astronomers.

“This galaxy's distorted shape typically indicates a gravitational encounter with another galaxy.”

“When galaxies interact, meaning they bump into or collide with each other's gravitational fields, their stars, dust, and gas can be pulled into new paths.”

“UGC 3912 may have once been an organized-looking spiral, but now it appears to have been bent out of shape by a giant thumb.”

“Fortunately, when galaxies interact, individual stars and objects orbiting them remain intact, even though their orbits change dramatically and the shape of the galaxy as a whole changes.”

“That's because the distances between stars in galaxies are so great that they simply keep moving along new orbits without colliding with each other.”

Astronomers are studying UGC 3912 as part of their investigation into supernova activity. Supernova activity is when a star at least eight times the size of the Sun explodes at the end of its life.

“Hubble studies hydrogen-rich phenomena known as supernovae, one of several types of supernovae. Type II supernova” they explained.

“Although enough Type II supernovae have been observed, they exhibit highly variable properties in brightness and spectroscopy and are not well understood.”

Source: www.sci.news

Gemini South Telescope zeroes in on unusual lenticular galaxy NGC 4753

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NGC 4753’s remarkable and complex network of dust lanes winding around its galactic core defines its “peculiar” classification, and was probably the result of the galaxy’s merger with a nearby dwarf galaxy about 1.3 billion years ago. It is thought that there is.

This image from the Gemini South Telescope, one half of the International Gemini Observatory operated by NSF’s NOIRLab, shows NGC 4753, a lenticular galaxy about 60 million light-years away in the constellation Virgo. Image credits: International Gemini Observatory / NOIRLab / NSF / AURA / J. Miller, International Gemini Observatory and NSF’s NOIRLab / M. Rodriguez, International Gemini Observatory and NSF’s NOIRLab / M. Zamani, NSF’s NOIRLab.

NGC4753 is a lenticular galaxy located approximately 60 million light-years away in the constellation Virgo.

This galaxy, also known as LEDA 43671, UGC 8009, and IRAS 12498-0055, discovered It was proposed by German-born British astronomer William Herschel on February 22, 1784.

NGC 4753 is a member of the NGC 4753 group of galaxies in the Virgo II cloud, a series of at least 100 galaxy clusters and individual galaxies that extend away from the southern edge of the Virgo Supercluster.

“There is an astonishing number of galaxies in the observable universe, with recent estimates putting the number between 100 billion and 2 trillion,” Gemini astronomers said in a statement.

“And just like snowflakes, no two are exactly alike. However, they can be divided into four broad classes based on their appearance and physical characteristics: elliptical, lenticular, irregular, and spiral. , with many subclasses in between.”

“However, galaxies are dynamic objects that evolve over time while interacting with their surrounding environment, meaning that an individual galaxy can fall into multiple classifications over its lifetime. ”

In 1992, Indiana University astronomer Tom Steiman-Cameron and colleagues published A detailed study of NGC 4753 reveals that its complex shape is likely the result of a merger with a small companion galaxy.

“Galaxies that swallow other galaxies often look like train wrecks, but this is a train wreck galaxy,” said Dr. Steiman-Cameron.

Galactic mergers occur when two or more galaxies collide, mixing their material and significantly changing the shape and behavior of each galaxy involved.

In the case of NGC 4753, the once-standard lenticular galaxy is thought to have merged with a nearby gas-rich dwarf galaxy about 1.3 billion years ago.

The dwarf galaxy’s gas, combined with the burst of star formation caused by this galactic collision, injected large amounts of dust into the system.

The galaxy’s gravitational inward spiral spread out the accumulated dust into a disk. And this is where the story gets interesting.

Astronomers have discovered that a phenomenon known as differential precession is responsible for NGC 4753’s tangled dust lanes.

Precession occurs when a rotating object changes its axis of rotation, like a spinning top that loses momentum and wobbles. And differential means that the speed of precession is different depending on the radius.

For a dusty accretion disk orbiting around a galactic nucleus, the rate of precession is faster toward the center and slower near the edges.

This fluctuating wobble-like motion is due to the angle at which NGC 4753 and its former dwarf companion collided, and is responsible for the strongly twisted dust lanes that we see today wrapping around the galaxy’s luminescent core. It becomes.

“For a long time, no one knew what to make of this strange galaxy,” said Dr. Steiman-Cameron.

“But by starting with the idea that the accreted material fills the disk and analyzing the three-dimensional geometry, the mystery was solved.”

“Thirty years later, we are now incredibly excited to be able to see this highly detailed image with the Gemini South Telescope.”

Source: www.sci.news

Hubble Captures Images of Irregular Galaxy LEDA 6430

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NASA has released a stunning new image of the irregular galaxy LEDA 6430 captured by the NASA/ESA Hubble Space Telescope.

This Hubble image shows LEDA 6430, an irregular galaxy about 15 million light-years away in the constellation Phoenix. Image credit: NASA / ESA / Hubble / M. Messa.

LEDA6430 It is located in Phoenix, a small constellation in the south, about 15 million light years from Earth.

This galaxy, also known as ESO 245-5 or HIPASS J0145-43, 15,000 light years Across.

“The Hubble image of LEDA 6430 shows a dense starry sky over a background of dust, gas, and light from more distant objects,” Hubble astronomers said in a statement.

“In the image, the stars take up most of the field of view, so it's a little difficult to realize that you're actually looking at a large portion of the galaxy.”

“Another reason why LEDA 6430 is probably a bit difficult to tell is a galaxy is its apparent lack of structure,” the astronomers added.

“We frequently enjoy Hubble's spectacular images of spiral galaxies, which are extremely interesting to watch, in part because the stars, gas, and dust appear to be arranged in an unusually orderly manner. .”

“In contrast, the LEDA 6430 de vaucouleurs system

“The IB(s)m designation specifically means that the galaxy is irregular (I), banded (B), has a slight spiral structure (s), and is Magellanic (m). ”

“Irregularity is very intuitive in this context; galaxies do not appear to have a regular, ordered structure,” the researchers said.

“In fact, the entire landscape here is covered in stars from this galaxy.”

“The second term means there is a bar-like shape at the center of the galaxy, which is a dense expanse of stars across the center of this image.”

“Paragraph 3 says there are hints of a helical structure, but nothing clear or definitive (hence the 's' in parentheses).”

“Finally, the last term shows that LEDA 6430 is similar to the Magellanic Clouds, two dwarf galaxies that flank the Milky Way.”

Color images of the LEDA 6430 were created from separate exposures taken in the ultraviolet, visible, and near-infrared regions of the spectrum. Hubble's Wide Field Camera 3 (WFC3) Equipment.

Five filters were used to sample different wavelengths. Color is obtained by assigning different hues to each monochromatic image associated with an individual filter.

Source: www.sci.news

Samsung Galaxy S24 Ultra: A Phone Powered by AI & Packed with Features – A Comprehensive Review

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Samsung’s most recent smartphones are equipped with a variety of modern and sophisticated AI tools designed to enhance text, images, video, and search. However, the effectiveness of these features is a bit inconsistent. The new Galaxy S24 Ultra boasts the latest AI technology from both Samsung and Google, making it one of the most powerful phones on the market. Packed with superior specs, this phone comes with a hefty price tag of £1,249 (€1,469/$1,299.99/AU$2,199) in the UK, and even more expensive in other parts of the world.

Featuring a titanium exterior, the S24 Ultra is a premium and robust device that has a flat screen and new titanium sides resembling the iPhone 15 Pro Max. The screen is made of Corning’s latest gorilla armor glass, which is less prone to damage and offers lower reflectance and reduced glare. The phone is powered by Qualcomm’s latest Snapdragon 8 Gen 3 chip, delivering fast speeds and improved battery life.

In terms of sustainability, the phone contains a variety of recycled materials and is designed to withstand drops. Samsung estimates the battery to last more than 500 full charge cycles at 80% capacity, and the company offers repair options for the screen and battery.

The S24 Ultra comes with Samsung’s S Pen stylus and offers 7 years of support, making it on par with Apple’s iPhone and Google’s Pixel in terms of product longevity. The phone’s AI tools include features such as generative photo editing, language translation, and document summarization.

The camera system on the S24 Ultra is highly advanced, with four rear cameras and a 12-megapixel selfie camera. The phone’s extended zoom capabilities and in-sensor zoom make it a standout in terms of photography.

Overall, the S24 Ultra offers a wide range of features and capabilities, but it has its drawbacks. The phone is described as heavy, expensive, and large, making it a two-handed device that may not be practical for every user. Additionally, while the AI features are impressive, they may not be a strong enough reason to justify purchasing the phone.

In conclusion, Samsung’s Galaxy S24 Ultra is a powerhouse of a device, offering a range of advanced features and capabilities, but at a high price and with some practical limitations.

Source: www.theguardian.com

Review of Samsung Galaxy Z Flip 5: A Large Screen Inside and Out

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Samsung’s popular folding screen foldable phone now has a larger outer screen in its fifth generation, making it even easier to use, while still maintaining a stylish look with a sleek design that leaves no gaps when closed.

The new Z Flip 5 costs £1,049 ($999/AU$1,649), £50 more than last year’s model. It also comes with double his initial capacity of storage and a number of small but meaningful upgrades. There’s no question that folding technology still commands a premium price, with prices similar to high-end Android and iPhones.

The Flip 5 feels like a gorgeous piece of technology and is more sophisticated than previous versions. The new hinge allows the two halves of your phone to close flush on one end without leaving any gaps, which looks great and prevents pocket lint.


In contrast to the wedge shape and gap of flip 4 (left), flip 5 (right) closes flat and flush. Photo: Samuel Gibbs/The Guardian

The new design also makes the phone thinner and slightly reduces the size of the screen crease, similar to the one seen on the Oppo Find N2 Flip. You can still feel the indentation in the center of the fold and see it in the glare of light, but it is usually not noticeable during use.

The large 6.7-inch screen is great: bright, crisp, smooth, and responsive. Samsung says the screen is 25% more durable than previous models, but it’s still made of softer materials than traditional phones, so it needs to be handled more carefully to avoid scratches. That’s what it means.

A big new 3.4-inch cover screen on the outside of the phone is the standout feature. It shows the time, notifications, and other types of information typical of a regular cell phone’s always-on display. There’s also an eight-button quick settings panel for toggling Wi-Fi and other bits, which is useful but annoyingly not customizable. When you have a notification, you’ll see a retro little red dot. There are many ways to customize the look of your display with different designs, images, and animations.


Spotify’s cover screen mini player is great (top left), with widget options like calendar, weather, and timer, as well as apps like Google Maps and YouTube (bottom right). Photo: Samuel Gibbs/The Guardian

The cover screen also has a collection of useful widgets, and you can also access a full keyboard to reply to messages and run a handful of apps like WhatsApp without opening your phone.

specification

  • Main screen: 6.7-inch FHD+ 120Hz AMOLED Infinity Flex display (425ppi)

  • Cover screen: 3.4 inch AMOLED

  • Processor: Qualcomm Snapdragon 8 2nd generation

  • Ram: 8GB

  • storage: 256 or 512GB

  • operating system: One UI 5.1 based on Android 13

  • camera: Dual 12MP rear, 10MP front

  • Connectivity: 5G, nano sim+esim, wifi6E, NFC, Bluetooth 5.3, GNSS

  • water resistance: IPX8 (30 minutes at a depth of 1.5 meters)

  • Folding dimensions: 84.9×71.9×15.1mm

  • Unfolded dimensions: 165.2×72.2×6.9mm

  • weight: 187g

Comfortable performance and 1-day battery life

Samsung Places Large Bet on AI Features to Enhance Appeal of Galaxy S24

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In an attempt to ignite fading consumer interest, Samsung is heavily emphasizing AI technology for its latest premium S24 Android phone. This includes instant phone translation, new Google search, and advanced image and video editing features.

The Galaxy S24 series was announced at an event in California and is led by the largest and most expensive titanium-clad Ultra. It features the latest Qualcomm chip, brightest screen and most powerful camera. However, in a change for the dominant Korean company, hardware updates are taking a backseat to flashy features that leverage the new Galaxy AI branding.

Many of its additions, including the use of the Android maker’s Gemini AI model, keep it competitive with products such as Google’s Pixel series. Samsung’s new Live Translate feature enables real-time two-way phone, voice, and text conversations between 13 different languages, similar to what Google Translate offers, and its “Chat Assist” allows for simple spelling. Additionally, it helps ensure message tone and grammar are appropriate.

Display with a variety of Samsung smartphones with AI-powered features. Photo: Jennifer Dudley Nicholson/AAP

The phone’s video and photo editing features are packed with generative AI technology, including regular object, background removal, and image retouching. The AI can create instant slow-motion videos from regular videos by generating additional frames that slow down the action. Samsung’s image editor will add watermarks and metadata to AI-altered content, a move widely welcomed by analysts.

Ben Wood, principal analyst at CCS Insight, said: “The Galaxy S24 series of devices, along with Google’s Pixel series, mark the dawn of the consumerization of AI in smartphones. This means that all smartphone manufacturers, including Apple, are adding AI-powered features to their new devices.”

Google has partnered with Samsung to bring new ways for Google to: Search by circle, which will launch on January 31st on select Android devices including the S24 and Pixel 8 series. Users simply press the home button or gesture bar, circle what they want to search for on the screen, and Google’s AI does the rest.

Samsung has also partnered with Google to provide seven years of software support to help users use their new phone for longer and more safely. The S24’s construction includes a wider variety of designs to soften its impact on the environment, using tons of recycled materials.

Samsung Galaxy S24 Ultra. Photo: Jennifer Dudley Nicholson/AAP

Samsung is aiming to boost mobile phone sales through its AI efforts, as it recently lost its top spot in the mobile phone market to Apple for the first time in 12 years. Analysts believe Samsung’s sales growth will depend largely on its ability to effectively market its mobile phone to raise awareness and break consumer apathy.

Samsung has a nine-month window to regain leadership in the premium segment, especially in its biggest markets, the US and China, before the expected launch of Apple’s next-generation iPhone in September.

Source: www.theguardian.com

Fermi makes a puzzling discovery of gamma rays from beyond our galaxy

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Interestingly, the gamma-ray signal detected by NASA's Fermi Gamma-ray Space Telescope has a similar orientation to another unexplained feature produced by some of the most energetic cosmic particles ever detected. and are found to be approximately the same size.

This artist's concept shows the entire sky in gamma rays, with a magenta circle indicating the uncertainty in the direction in which more high-energy gamma rays appear to be arriving than average. In this view, the plane of the Milky Way crosses the center of the map. The circle encloses the region that contains these gamma ray sources with a probability of 68% (inside) and 95%. Image credit: NASA's Goddard Space Flight Center.

“It was a completely serendipitous discovery. We found a much stronger signal in a different part of the sky than what we were looking for,” said the University of Maryland and NASA's Goddard Space Flight Center in Space. said academic Dr. Alexander Kashlinsky.

Dr. Kasilinsky and his colleagues were looking for gamma-ray signatures associated with the cosmic microwave background (CMB), the oldest light in the universe.

This light occurred when the hot, expanding universe cooled enough to form the first atoms, and this event released a burst of light that could penetrate the universe for the first time.

Stretched out by the subsequent expansion of the universe over the past 13 billion years, this light was first detected in 1965 in the form of faint microwave waves across the sky.

In the 1970s, astronomers noticed that the CMB had a so-called dipole structure, which was later measured with high precision by NASA's COBE mission.

The CMB has more microwaves than average in the direction toward Leo and is about 0.12% hotter, and in the opposite direction it is cooler by the same amount with fewer microwaves than average.

To study small temperature changes within the CMB, this signal must be removed.

Astronomers generally believe that this pattern is the result of our solar system's motion relative to the CMB at about 370 km per second (230 miles per second).

This movement causes a dipole signal in the light coming from astrophysical sources, but so far only the CMB has been accurately measured.

By looking for patterns in other forms of light, astronomers can confirm or refute the idea that the dipole is entirely due to the motion of the solar system.

“Such measurements are important because the discrepancy in the size and orientation of the CMB dipole allows us to extend the possibility of going back to the very beginning of the universe, when the universe was less than a trillionth of a second old. “Because we can get a glimpse of certain physical processes,” said Professor Fernando Atrio Barrandera from the University of Salamanca.

Astronomers reasoned this by summing up years of data from Fermi's Large Area Telescope (LAT).

Due to the effects of relativity, gamma-ray dipoles should be amplified five times more than currently detected CMBs.

The authors integrated 13 years of Fermi LAT observations of gamma rays above about 3 billion electron volts (GeV). For comparison, visible light has an energy of about 2 to 3 electron volts.

They removed all resolved and identified sources and removed the central plane of the Milky Way to analyze the extragalactic gamma-ray background.

“We have discovered a gamma-ray dipole, but its peak is located in the southern sky, far from the CMB, and its magnitude is 10 times larger than expected from our motion.” said astrophysicist Dr. Chris Schroeder. Catholic University of America.

“Although this is not what we were looking for, we think it may be related to similar features reported for the highest-energy cosmic rays.”

Cosmic rays are accelerated charged particles, primarily protons and atomic nuclei. The rarest and most energetic particles, called UHECRs (Ultra High Energy Cosmic Rays), carry more than a billion times the energy of 3 GeV gamma rays, and their origin remains one of the greatest mysteries in astrophysics.

Since 2017, the Pierre Auger Observatory in Argentina has report Dipole in the direction of arrival of UHECR.

Because cosmic rays are electrically charged, they are deflected by galaxies' magnetic fields by different amounts depending on their energy, but the peak of the UHECR dipole is at a position in the sky similar to that found by researchers with gamma rays.

And both have surprisingly similar sizes. About 7% more gamma rays or particles than average come from one direction, and correspondingly less gamma rays or particles come from the opposite direction.

“The two phenomena are probably related, and an as-yet-unidentified source may be producing both gamma rays and very high-energy particles,” the scientists said.

“To solve this cosmic puzzle, we must either locate these mysterious sources or propose alternative explanations for both features.”

of findings Published in Astrophysics Journal Letter.

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A. Kashirinsky other. 2024. Exploration of dipoles in the diffuse gamma-ray background. APJL 961, L1; doi: 10.3847/2041-8213/acfedd

Source: www.sci.news

Unprecedentedly fast radio burst detected in a galaxy group at extreme distance

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A fast radio burst phenomenon called FRB 20220610A flashed in an unlikely location: a collection of at least seven galaxies that existed when the universe was only 5 billion years old. Most fast radio bursts to date have been found in isolated galaxies.

This Hubble image shows the host galaxy of the extremely powerful fast radio burst FRB 20220610A. Image credit: NASA/ESA/STScI/Alexa Gordon, Northwestern University.

FRB 20220610A was first detected by the Australian Square Kilometer Array Pathfinder (ASKAP) radio telescope in Western Australia on June 10, 2022.

ESO's Very Large Telescope confirmed that the FRB came from a distant place. The Fed was four times more energetic than its closer counterpart.

“We needed Hubble's acuity and sensitivity to pinpoint the source of the FRB,” said Northwestern University astronomer Alexa Gordon.

“Without Hubble's images, it will remain a mystery whether this arose from a monolithic galaxy or some kind of interacting system.”

“It's these kinds of environments, these strange environments, that are driving us to a deeper understanding of the Fed's mysteries.”

Hubble's sharp images suggest that FRB 20220610A arose in an environment where up to seven galaxies could be on a potential path to a merger, which is also very significant.

“We're ultimately trying to answer the question: What causes this? What are their ancestry and their origin?” said Wen-Fai Fung, an astronomer at Northwestern University. Ta.

“Hubble observations provide an incredible view of the surprising types of environments that give rise to these mysterious events.”

Although hundreds of FRBs have been detected, their ancestry is unknown. One of the leading candidates is magnetars.

They have magnetic fields so strong that if a magnetar were to be located halfway between the Earth and the Moon, it would erase the magnetic stripes on everyone's credit cards around the world.

Even worse, if the astronaut traveled within a few hundred miles of the magnetar, they would effectively be dissolved, as every atom in their body would be destroyed.

Possible mechanisms include some kind of shocking starquake, or an explosion triggered when the magnetar's twisted magnetic field lines break and recombine.

A similar phenomenon occurs on the Sun, causing solar flares, but the magnetar's magnetic field is a trillion times more powerful than the Sun's magnetosphere.

This snap can cause a flash of the FRB or create a shock wave that incinerates the surrounding dust and heats the gas to create a plasma.

There can be several types of magnetars. In some cases, it could be an explosive object orbiting a black hole surrounded by a disk of matter.

Another option is a pair of orbiting neutron stars whose magnetospheres interact periodically to create cavities in which eruptions can occur.

Magnetars are estimated to be active for about 10,000 years before becoming permanent, and are expected to be discovered in areas where violent storms of star formation occur. However, this does not seem to be the case for all magnetars.

In the near future, the sensitivity of FRB experiments will improve and FRBs will be detected at unprecedented rates at these distances.

“We need to continue to find more of these FRBs in different types of environments, both near and far,” Dr. Gordon said.

Astronomers announced that findings in AAS243243rd Meeting of the American Astronomical Society, New Orleans, Louisiana, USA.

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alexa gordon other. 2024. Revealing the environment of the most distant FRB with the Hubble Space Telescope. AAS243summary #3679

Source: www.sci.news

Over 1,900 exoplanets in our galaxy may experience diamond rain

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Diamond rain could fall on many exoplanets

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The sky of an icy planet in space may be full of diamonds. Compacted carbon compounds may turn into diamonds at less extreme temperatures than researchers thought would be necessary, which could make diamond rain a common phenomenon inside giant ice cubes. there is.

In the past, laboratory experiments have confused the conditions under which diamonds form inside ice giants like Uranus and Neptune. There are two types of experiments to investigate this: dynamic compression experiments, in which a carbon compound is subjected to a sudden impact, and static compression experiments, in which it is placed in a chamber and gradually compressed. Previous dynamic compression experiments required much higher temperatures and pressures to form diamonds.

mango frost Using static compression and dynamic heating, researchers at SLAC National Accelerator Laboratory in California sandwiched polystyrene (the same polymer used to make Styrofoam) between two diamonds and applied an X-pulse. We conducted a new series of experiments to compress Ray of light. They observed diamonds begin to form from polystyrene at temperatures of about 2,200 degrees Celsius and pressures of about 19 gigapascals, conditions similar to the shallow interiors of Uranus and Neptune.

These pressures are much lower than those found necessary for diamond formation in previous experiments using dynamic compression. This reaction took longer than the typically performed dynamic compaction experiments. This may explain why no low-pressure diamond formation was detected in such experiments. “It didn't match the established results and wasn't what we expected, but it was a good fit and brought everything together,” Frost says. “It turns out it's all due to different timescales.”

This could mean that diamonds could rain on smaller planets than previously thought. The researchers calculated that of the approximately 5,600 exoplanets identified, more than 1,900 could rain diamonds.

This also means that diamonds may form at shallower depths within our solar system than we think, which could change our understanding of the internal dynamics of giant planets. There is a possibility that it will change. This shallow geological formation could allow diamond rain to pass through layers of ice as it sinks toward the centers of these planets. This, in turn, will affect the icy world's magnetic fields, which are complex and poorly understood.

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Source: www.newscientist.com

ALMA discovers earthquake-like ripples in the disk of an old barred spiral galaxy

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astronomer using Atacama Large Millimeter/Submillimeter Array ALMA observed disk bending waves in BRI 1335-0417, the oldest known spiral galaxy, more than 12 billion years old. This unprecedented observation reveals the galaxy’s dynamic growth pattern, showing the motion of a vertically oscillating disk similar to ripples in a pond. This study is the first time such a phenomenon has been detected in an early galaxy.

This simulation shows how the galactic disk is disturbed and seismic ripples propagate throughout the disk. Image credit: Brand-Hawthorne & Tepper-Garcia, University of Sydney.

Bar structures play an important role in driving galaxy evolution and forming disk structures.

In galaxies, axisymmetric stellar bars exert a gravitational torque on the gas, driving it toward the galactic center and forming concentrated stellar structures such as bulges and core disks.

This process may also promote the accretion of gas onto black holes, which are observed as active galactic nuclei.

Bars can also cause radial migration of gas and stars, which is essential for explaining the stellar kinematics observed in galaxies similar to the Milky Way.

“Thanks to a cutting-edge telescope called ALMA, we have been able to observe the ancient galaxy BRI 1335-0417 in greater detail,” said lead author Dr Takafumi Tsukui, an astronomer at the Australian National University.

“In particular, we were interested in how gas moves within and across galaxies.”

“Gas is a key component for star formation and provides important clues about how galaxies actually drive star formation.”

In this case, Dr. Tsukui and his colleagues were not only able to capture the movement of gas around BRI 1335-0417, but also revealed the formation of seismic waves, a first for this type of early galaxy.

The galaxy’s disk moves similar to the ripples in a pond after a stone is thrown into it.

ALMA detected emission from carbon ions in the galaxy BRI 1335-0417. Image credit: ALMA / ESO / NAOJ / NRAO / T. Tsukui & S. Iguchi, doi: 10.1126/science.abe9680.

“The vertical oscillatory motion of the disk is due to external factors, such as new gas flowing into the galaxy or contact with other small galaxies,” Tsukui said.

“Both possibilities would bombard the galaxy with new fuel for star formation.”

“Furthermore, our study revealed rod-like structures within the disk.”

“The galactic rods can destroy gas and transport it towards the center of the galaxy.”

“The bar discovered at BRI 1335-0417 is the most remote known structure of its kind.”

“Taken together, these results point to the dynamic growth of young galaxies.”

“We know that early galaxies formed stars at much faster rates than modern galaxies,” said co-author Dr Emily Wisnioski, also from the Australian National University.

“This is also true for BRI 1335-0417, which has a similar mass to our Milky Way galaxy but forms stars hundreds of times faster.”

“We wanted to understand how gas is supplied to keep up with this rapid rate of star formation.”

“Spiral structures are rare in the early Universe, and exactly how they form remains unknown.”

“This study also provides important information about the most likely scenario.”

“While it is impossible to directly observe the evolution of galaxies, our observations only provide snapshots, so computer simulations can help piece together the story.”

of findings will appear in Royal Astronomical Society Monthly Notices.

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Takafumi Tsukui other. 2024. Disk bending waves detected in a barred spiral galaxy at redshift 4.4. MNRAS 527 (3): 8941-8949; doi: 10.1093/mnras/stad3588

Source: www.sci.news

Three new young stars found in the central region of the Milky Way galaxy by astronomers

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According to some researchers, the oldest of these stars is 1.5 billion years old, while the youngest is only 100 million years old. paper Published in Astrophysics Journal Letter.

This infrared image from Hubble shows the Milky Way Core Cluster, the densest and most massive star cluster in our galaxy. Image credit: NASA / ESA / Hubble Heritage Team / STScI / AURA / T. Do & A. Ghez, UCLA / V. Bajaj, STScI.

The center of our Milky Way galaxy is located about 27,000 light-years away in the constellation Sagittarius and is a crowded place.

This region is so dense that it’s equivalent to a million stars crammed into the space between the Sun and Alpha Centauri, 4.3 light-years away.

This nuclear cluster surrounds Sagittarius A*, a 4.3 million solar mass black hole at the center of the galaxy.

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In general, many nuclear star clusters coexist with supermassive black holes, which are found in more than 70% of galaxies with masses greater than 100 million to 10 billion solar masses.

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“In previous work, we hypothesized that these particular stars in the middle of the Milky Way may be unusually young,” said Lund University astronomer Rebecca Forsberg.

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“Now we can confirm this. Our study shows that three of these stars are relatively young, at least as far as astronomers are concerned, ranging in age from 100 million years to about 1 billion years. We were able to determine the age.”

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“This is equivalent to the age of the Sun, which is 4.6 billion years old.”

This panorama shows the central region of the Milky Way galaxy. It builds on previous surveys by NASA’s Chandra X-ray Observatory and other telescopes, and extends Chandra’s high-energy field of view further up and down the galactic plane than previous imaging campaigns. The X-rays from Chandra are orange, green, and violet, indicating different X-ray energies. Radio data from MeerKAT is gray. Image credits: NASA / CXC / UMass / QD Wang / NRF / SARAO / MeerKAT.

In this study, Dr. Forsberg and colleagues used high-resolution data from the Keck II telescope in Hawaii. This Keck II telescope is one of the largest telescopes in the world with a 10 meter diameter mirror.

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For further verification, they measured the amount of iron, a heavy element, in the stars

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This element is important in tracking the development of galaxies. This is because astronomers’ theories about star formation and galaxy development show that the formation of heavy elements increases over time in the Universe, so younger stars contain more heavy elements.

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To determine iron levels, astronomers looked at the star’s spectrum in infrared light. Infrared light is a part of the light spectrum that can more easily illuminate dust-dense parts of the Milky Way compared to optical light.

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Researchers say there is considerable variation in iron levels.

“The very wide spread in iron levels could indicate that the innermost parts of the galaxy are incredibly heterogeneous, or unmixed,” said Dr. Brian Thorsbro, an astronomer at Lund University. Stated.

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“This is something we didn’t expect, and it tells us something not only about what the center of a galaxy looks like, but also about what the early universe looked like.”

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“Personally, I think it’s very exciting that we can now study the galactic center itself at such a detailed level,” Dr. Forsberg said.

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“While these types of measurements have been standard for observations of our own galactic disk, they have been an unattainable goal in more remote and exotic parts of the galaxy.”

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“Studies like this can teach us a lot about how our home galaxy formed and developed.”

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B. Thorsbro other. 2023. The range of old metallicities of stars in nuclear clusters is wide. APJL 958, L18; doi: 10.3847/2041-8213/ad08b1

Source: www.sci.news

The Process of a ‘Bouncing’ Comet Spreading Life Across the Galaxy

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Researchers at the University of Cambridge have discovered how comets can deliver the molecular building blocks of life to planets in our galaxy, particularly those in the “pea-in-a-pod” system, where the planets orbit each other closely. It was demonstrated that

Cambridge researchers have proposed that comets could carry the building blocks of life to other planets, especially in the “pea-in-a-pod” system. Their findings suggest that these molecules can survive on planets with close orbiting neighbors, providing new insights into the search for extraterrestrial life.

How did the molecules that make up life originate on Earth? One long-standing theory is that they may have been transported by comets. Now, researchers from the University of Cambridge have shown how comets can deposit similar building blocks on other planets in the galaxy.

The role of Comet Speed ​​and the “Peas in a Pod” system

To transport organic material, comets must travel relatively slowly, at speeds of less than 15 kilometers per second. At higher speeds, critical molecules cannot survive. The speed and temperature of the impact causes the molecules to break apart.

The most likely place for a comet to travel at a reasonable speed is in a “pea in a pod” system, where groups of planets orbit closely together. In such systems, comets can essentially pass or “bounce” from one planet’s orbit to another, slowing them down.

If the velocity is slow enough, the comet will hit the planet’s surface, releasing intact molecules that researchers believe are precursors to life. The results were announced on November 15th. Proceedings of the Royal Society A suggests that if the arrival of comets is important for the origin of life, such systems would be promising places to look for life outside the solar system.

Comet: carrier of prebiotic molecules

Comets are known to contain various building blocks of life known as prebiotic molecules. For example, a sample of asteroid Ryugu analyzed in 2022 showed that the asteroid was delivered intact. amino acid and vitamin B3. Comets also contain large amounts of hydrogen cyanide (HCN), another important prebiotic molecule. HCN has strong carbon-nitrogen bonds, making it highly resistant to high temperatures. This means that it can survive and remain intact even if it enters the atmosphere.

Lead author Richard Anslow, from the Cambridge Institute of Astronomy, said: “We’re constantly learning more about the atmospheres of exoplanets, so we’re wondering whether there are planets out there where complex molecules could be transported by comets. I wanted to find out.” “It’s possible that the molecules that brought life to Earth came from comets, and the same could be true for other planets in our galaxy.”

The researchers do not claim that comets are necessary for the origin of life on Earth or other planets, but instead place limits on the types of planets to which complex molecules such as HCN can be successfully transported by comets. I was thinking about it.

Comet path and influence on the solar system

Most of the comets in our solar system are located outside of Earth’s orbit. Neptune,So-called kuiper belt. When comets and other Kuiper Belt Objects (KBOs) collide, they can be pushed toward the Sun by Neptune’s gravity and eventually pulled into the Sun. Jupitergravity. Some of these comets pass through the asteroid belt and enter the inner solar system.

“Earth is currently the only example of a planet with life, so we wanted to test our theory on a planet similar to ours,” Anslow said. “What kind of comet, moving at what speed, could deliver intact prebiotic molecules?”

Using various mathematical modeling techniques, the researchers determined that it is possible for comets to carry precursor molecules throughout their lives, but only in certain scenarios. For a planet to orbit a star similar to our Sun, the planet must have a low mass, and it is beneficial for the planet to be in a close orbit to other planets in the system. The researchers found that nearby planets in close orbits are much more important for planets around low-mass stars, whose typical velocities are much higher.

In such a system, a comet could be pulled in by the gravity of one planet and pass by another before colliding with it. If this “comet pass” occurs enough times, the comet’s velocity will be slow enough that some prebiotic molecules will be able to survive atmospheric entry.

“In these dense systems, each planet has a chance to interact with and capture the comet,” Anslow said. “This mechanism could be how prebiotic molecules reach the planet.”

For planets orbiting low-mass stars like M dwarfs, complex molecules are more difficult to transport by comets, especially if the planet’s density is loose. Rocky planets in these systems are also exposed to higher velocity collisions, which can pose unique challenges for life on these planets.

Implications for the search for extraterrestrial life

Researchers say their results could help determine where to look for life outside the solar system.

“It’s interesting that we can start to identify the types of systems that can be used to test different origin scenarios,” Anslow said. “This is another way of looking at the great work already being done on Earth. What molecular pathways gave rise to the wide variety of life we ​​see around us? Are there other planets with similar pathways? These are exciting times, as we can combine advances in astronomy and chemistry to study some of the most fundamental questions.”

Reference: “Can comets deliver prebiotic molecules to rocky exoplanets?” RJ Anslow, A. Bonsor, PB Rimmer, November 15, 2023. Proceedings of the Royal Society A Mathematical Physics and Engineering Sciences.

DOI: 10.1098/rspa.2023.0434

This research was supported by the Royal Society and part of the Science and Technology Facilities Council (STFC), which is part of UK Research and Innovation (UKRI). Richard Anslow is a Fellow of Wolfson College, Cambridge.

Source: scitechdaily.com