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Science Explorer
Science Explorer
2 yrs

Globular Clusters Should Contain More Intermediate-mass Black Holes
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Globular Clusters Should Contain More Intermediate-mass Black Holes

We live in a Universe studded with black holes. Countless stellar mass and supermassive ones exist in our galaxy and most others. It’s likely they existed as so-called “primordial” black holes in the earliest epochs of cosmic history. Yet, there seems to be a missing link category: intermediate-mass black holes (IMBH). Astronomers have searched for these rare beasts for years and there’s only one possible observation thanks to gravitational-wave data. So, where are they? IMBH might be hidden away in the hearts of globular clusters. But, given the tightly packed nature of those compact collections of stars, how would we know if they contained any IMBH? Teams of researchers in Japan and China came up with a couple of ways to search them out. One is to look for fast-moving stars ejected from globular clusters. The other is to do simulations of collisions of stars in the hearts of newly forming clusters. Both methods may point the way to more IMBH discoveries. What Are Intermediate-mass Black Holes? These rare objects are pretty much what their name says: black holes with masses somewhere between their stellar-mass cousins and the supermassive behemoths at the hearts of galaxies. They can contain as little as a thousand times the mass of the Sun, which would be fairly “small”, up to maybe a million solar masses. Beyond that are the supermassive monsters with millions or billions of times the mass of the Sun. The IMBH don’t come from supernova explosions, since there’s no massive star big enough to collapse to produce an IMBH. The birth of an IMBH should involve multiple massive objects coalescing together. This makes them more like their big supermassive black hole siblings. So, where would such a collisional event happen? It would help if you had a dense agglomeration of stars tightly packed together. That describes globular clusters to a T. They’re crowded with stars, and likely have a good collection of very massive ones. Those are the stars that explode as supernovae and collapse down to produce a stellar-mass black hole. If enough of them exist in the cluster, they could merge and create an IMBH. Another suggestion to create an IMBH is for massive stars to collide to create a single more-massive object. Many globular clusters orbit the core of the Milky Way Galaxy. Some of the densest ones have millions of stars pulled together by gravity. The cluster Messier 15 (M15) is a good example. It contains more than 100,000 stars crammed into an area of space about 175 light-years across. If runaway star collisions or stellar-mass black hole mergers occurred in M15, that could be enough to create an IMBH. Simulating Globular Clusters and Intermediate-Mass Black Hole Growth Another idea is to explore the formation of globulars to see if it produces any clues to the origins and existence of IMBH. That’s what a team of scientists at the University of Tokyo did. They created advanced simulations of star cluster formation to see if massive-star collisions could occur and lead to the birth of IMBH. It’s not an easy task. Previous simulations suggested stellar winds would blow away the needed masses to create these missing black holes. “Star cluster formation simulations were challenging because of the simulation cost,” said team leader Michiko Fujii. “We, for the first time, successfully performed numerical simulations of globular cluster formation, modeling individual stars. By resolving individual stars with a realistic mass for each, we could reconstruct the collisions of stars in a tightly packed environment. For these simulations, we have developed a novel simulation code, in which we could integrate millions of stars with high accuracy.” A simulated star cluster forming in a giant molecular cloud. Could this visualization help astronomers understand the formation of intermediate-mass black holes in clusters? Courtesy: Takaaki Takeda (VASA Entertainment, Inc.) The resulting simulation run showed that runaway collisions brought very massive stars together. These are perfect candidates to end up as IMBH candidates. “Our final goal is to simulate entire galaxies by resolving individual stars,” Fujii points to future research. “It is still difficult to simulate Milky Way-size galaxies by resolving individual stars using currently available supercomputers. However, it would be possible to simulate smaller galaxies such as dwarf galaxies. We also want to target the first clusters, star clusters formed in the early universe. First clusters are also places where IMBHs can be born.” Runaway Stars and IMBH Okay, so simulations show that such IMBH could be possible in the globular cluster environment, but what’s the physical proof they actually exist? No one has actually detected the collisions of stellar-mass black holes inside a cluster to create an IMBH. Nor have they seen stellar collisions that might create a monster object — although the Japanese simulations proved they can happen. The trick now is to observe both types of event. Until that happens, astronomers can figure out if IMBH exist through indirect means. A Chinese research team, led by Yang Huang of the University of the Chinese Academy of Sciences, recently posted a paper about a high-velocity star fleeing the scene of a collision in the heart of Messier 15. The star, called J0731+3717, was ejected by an encounter with an intermediate-mass black hole embedded very close to the center of the cluster. J0731+3717 got tossed out on its high-speed journey about 21 million years ago. The team examined its metallicity (that is, its ratios of hydrogen and heavier elements (called “metals” by astronomers)) and found that it matches the stars in M15. The rogue star moves away from the cluster at a velocity of about 550 kilometers per second and once “lived” at a distance of about 1 AU from the cluster’s core. The team analyzed those measurements and did reverse orbital calculations of that star (and others within 5 kpc of the Sun). Based on their calculations, they concluded the star had a too-close encounter with an intermediate-mass black hole containing about 100 solar masses. The team suggests that this method be used to prove the existence of other IMBH in similar environments. They conclude their paper with a look at future observations to prove the concept. “With the increasing power of ongoing Gaia and large-scale spectroscopic surveys, we expect to discover dozens of cases within the 5kpc volume and ten times more within a 10kpc volume, which should shed light on the understanding of the evolutionary path from stellar-mass BHs to SMBHs.” For More Information Simulations Yield New Intermediate Mass Black Holes RecipeMedium and Mighty: Intermediate-mass Black Holes Can Survive in Globular ClustersA High-velocity Star Recently Ejected by an Intermediate-mass Black Hole in M15 The post Globular Clusters Should Contain More Intermediate-mass Black Holes appeared first on Universe Today.
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Conservative Voices
Conservative Voices
2 yrs

Concealed Carry Holder Shoots & Kills Road Raging Tow Truck Driver In Chicago
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Concealed Carry Holder Shoots & Kills Road Raging Tow Truck Driver In Chicago

Concealed Carry Holder Shoots & Kills Road Raging Tow Truck Driver In Chicago
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Conservative Voices
Conservative Voices
2 yrs

Are AI Videos Becoming Indistinguishable From Reality? [VIDEOS]
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Are AI Videos Becoming Indistinguishable From Reality? [VIDEOS]

Ten videos inside. You be the judge.
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Fun Facts And Interesting Bits
Fun Facts And Interesting Bits
2 yrs

The Presidential Candidate Who Campaigned From His Porch
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The Presidential Candidate Who Campaigned From His Porch

Unwilling to leave his ill wife's side during a presidential campaign, William McKinley decided to run for president from his front porch.
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INFOWARS
INFOWARS
2 yrs

Multiple New Studies Describe How Covid Shots Cause Cancer https://www.infowars.com/posts..../multiple-new-studie

Attention Required! | Cloudflare
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Attention Required! | Cloudflare

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Intel Uncensored
Intel Uncensored
2 yrs News & Oppinion

rumbleBitchute
Support optimal heart health with Organic Turmeric, Black Pepper and Ginger
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Survival Prepper
Survival Prepper  
2 yrs ·Youtube Prepping & Survival

YouTube
SURVIVAL INTEL | Home Invasion ALERT: Criminals Watching You
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Comedy Corner
Comedy Corner
2 yrs ·Youtube Funny Stuff

YouTube
PEANUT! You Can't Say That!! | JEFF DUNHAM
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AllSides - Balanced News
AllSides - Balanced News
2 yrs

Supreme Court Justice Clarence Thomas Amends Disclosure to Include Gift Trips
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Supreme Court Justice Clarence Thomas Amends Disclosure to Include Gift Trips

Supreme Court Justice Clarence Thomas has filed an amended financial disclosure that includes two trips he was gifted. Justice Thomas, an appointee of President George H. W. Bush, said in his 2023 disclosure that he “inadvertently omitted” the trips, paid for by billionaire Harlan Crow, on his report for 2019. The new disclosure, dated March 15 and made public on Friday, lists one tip on July 12, 2019, to Bali, Indonesia. The other trip was from July 18 to July 21, 2019. The location...
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AllSides - Balanced News
AllSides - Balanced News
2 yrs

Beyoncé tickets, book advances, Bali trip revealed in new Supreme Court financial disclosures
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www.allsides.com

Beyoncé tickets, book advances, Bali trip revealed in new Supreme Court financial disclosures

Supreme Court Justice Ketanji Brown Jackson disclosed receiving concert tickets from pop superstar Beyoncé Knowles-Carter, one of several notable items revealed Friday in the high court’s latest financial disclosure reports. Jackson valued the four tickets at $3,711.84, according to her annual disclosure form, which covered all of 2023. It’s unclear precisely which show Jackson or her family attended, but Knowles-Carter played a sold-out show in a thunderstorm in the Washington D.C. area...
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