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Science

Supermassive black hole devours a star, blasts its remains at Earth

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A supermassive black hole swallowed up a star, ripping it apart, and uniquely expelled a beam of light from its center.

In a scientific research report published on Wednesday, astronomers say a previously unknown black hole was made known to observers when a star passed too close and was devoured.

Astronomers then observed a jetted stream of “afterglow” from the catastrophe, which experts call a Tidal Disruption Event (TDE), heading straight toward the Earth.

“The event started when an ill-fated star approached the supermassive black hole (SMBH) on a nearly parabolic trajectory and was ripped apart into a stream of gaseous debris,” read the scientific paper, published on Nov. 30. “About half of the mass stayed bound to the black hole, underwent general-relativistic apsidal precession as the gas fell back towards the pericenter, and then produced strong shocks at the self-crossing point.”

ASTRONOMERS ARE SHOCKED WHEN BLACK HOLE ‘BURPS’ OUT A STAR

The scientists said the jetted beam — the AT2022cmc, or an “infrared/optical/ultraviolet light curve” — was initially red in color before it decayed over four days and changed to a blue hue.

The astronomers added: “The optical and ultraviolet observations revealed a fast-fading red ‘flare’ that transitioned quickly to a slow blue ‘plateau’, enabling the study of two components generated by the tidal disruption: the relativistic jet and the thermal component from bound stellar debris accreting onto the black hole.”

The blasted remains were so powerfully bright that astronomers detected the TDE from the dwarf galaxy a million light-years away.

The paper added: “Observations of a bright counterpart at other wavelengths, including X-ray, submillimetre and radio, supports the interpretation of AT2022cmc as a jetted TDE containing a synchrotron.”

CHINESE ROCKET PLUMMETS UNCONTROLLED TO EARTH, NASA SLAMS RISK OF ‘LOSS OF LIFE’

The TDE was discovered in Feb. 2022, before the scientific news journal received the paper about it in April 2022, and the research was finally accepted in October 2022.

TDEs have been observed before, like the AT 2020neh in June 2020.

The Herschel Space Observatory has shown that galaxies with the most powerful, active, supermassive black holes at their cores produce fewer stars than galaxies with less active black holes. 
(Universal History Archive/Universal Images Group via Getty Images)

Ryan J. Foley, a co-author and UC Santa Cruz astronomer, said this initial discovery would lead the way for astronomers to find other TDEs and new dwarf galaxies.

“This discovery has created widespread excitement because we can use tidal disruption events not only to find more intermediate-mass black holes in quiet dwarf galaxies but also to measure their masses,” Foley said in a scientific paper co-published on Nov. 10.

The discovery spanned years of research as the distant galaxy was first observed in June 2020, and was confirmed with Young Supernova Experiment data. It was observed again from July 1, 2020, to July 17, 2020; then from August 5, 2020, to September 6, 2020.

“Over 24 months of YSE operations we observed only one AT 2020neh-like event, monitoring fields for approximately 6 months each. This equates to one event per year within the YSE observational volume,” the scientific paper reads.

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These unique discoveries could result in even more discoveries in distant galaxies that would otherwise be undetectable without visible light from the explosion.

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Technology

Switch Accounted for 42% of Consoles Sold During UK Black Friday, Xbox Series for 40%, and PS5 18%

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by
William D’Angelo
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The Nintendo Switch was the best-selling console during Black Friday week in the UK, according to GfK data reported by GamesIndustry.

The Switch accounted for 42 percent of all console’s sold during Black Friday week as it was helped by a bundle that included a copy of Mario Kart 8 Deluxe and three months of Nintendo Switch Online. However, sales were down compared to last year.

The Xbox Series X|S came in second place with sales right behind the Switch with 40 percent of consoles sold. Microsoft reduced the price of the Xbox Series S for Black Friday, which helped boost sales. 

The PS5 was in a distant third with accounting for just 18 percent of all consoles sold. It did see a small discount on Digital Edition.

The total number of consoles sold over Black Friday week are similar to last year in the UK.

“Console hardware volumes over Black Friday week are similar to last year and Switch was again No.1,” said GfK boss Dorian Bloch. “However, overall Switch volumes are way down over Black Friday 2021, as both Sony and Microsoft also targeted Black Friday week with tempting offers.”

All three consoles had their best-selling week of 2022 for the week. 

Overall when you include consoles, physical game sales, and accessories, Black Friday 2022 sales are up four percent compared to last year and is the eighth biggest Black Friday in the UK out of the 10 that have taken place.

“Black Friday 2013 week remains the biggest and coincided with the PS4 launch,” said Bloch. “Outside of Black Friday weeks, the biggest all-time week on record is back in 2020, which was the PS5 launch and the second week of the Xbox Series X and S.”

Revenue for Black Friday 2022 was split with 41 percent for consoles, 39 percent for accessories, and 21 percent for physical games. 81 percent of Black Friday 2022 sales were from online retailers.

Black Friday 2022 was the number one week ever for VR revenue in the UK, driven by the Meta Quest 2 bundle that included Resident Evil 4.

“Controllers remained the No.2 gaming accessory,” Bloch said. “This was driven in particular by Microsoft’s controller deals and strong hardware sales for all three consoles, which drove controller take-up. It was the best controller week since Black Friday 2019.”

A life-long and avid gamer, William D’Angelo was first introduced to VGChartz in 2007. After years of supporting the site, he was brought on in 2010 as a junior analyst, working his way up to lead analyst in 2012 and taking over the hardware estimates in 2017. He has expanded his involvement in the gaming community by producing content on his own YouTube channel and Twitch channel. You can contact the author on Twitter @TrunksWD.

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Entertainment

Brad William Henke, ‘Orange Is the New Black’ star and ex-NFL player, dead at 56

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Brad William Henke, a former pro football player who later moved on to a prolific acting career, has died. He was 56.

His manager, Matt DelPiano, confirmed to The Post that Henke died in his sleep on Nov. 29, but did not give a cause of death.

“Brad was an incredibly kind man of joyous energy. A very talented actor, he loved being a part of this community … and we loved him back. Our thoughts are with his wife and family,” DelPiano said in a statement.

Henke’s most famous role came when he portrayed gay corrections officer Desi Piscatella in the Netflix hit “Orange Is the New Black.” That role gained made him status as a sex symbol in the bear community — a sub-section of the gay community that loves a larger and hairier man.

Henke embraced the recognition, telling Out in 2016: “I mean, I feel honored. I feel awesome. It’s such a compliment. Who wouldn’t want people to find them attractive? Piscatella is kind of a bad character in some ways but the response that I’ve gotten is that they like the fact that he’s real.”

Henke was born in Columbus, Nebraska, and raised in Littleton, Colorado. Henke played college football at the University of Arizona and was drafted by the New York Giants in 1989 before going on to play on the defensive line for the Denver Broncos, including at 1990’s Super Bowl XXIV versus that year’s winner, the San Francisco 49ers.

He retired from the league in 1994 due to ankle injuries and moved to Los Angeles to pursue coaching — but found a new career in acting.

Brad William Henke attends an event honoring nominees for the Screen Actors Guild Awards on Jan. 20, 2018.
FilmMagic

That journey started when his pro football buddy alerted him to a commercial casting looking for actors to portray football players.

“I booked the first commercial I ever went out for,” he told Looper in 2021. “It was for Hungry Hunter restaurants. I booked this thing and I shot it and it took half a day. I thought, ‘Oh, that’s easy.’ But when I was walking in, I saw this older man that I had seen at the callback, so I guess they had hired us both in case I crashed and burned. I was so oblivious.”

“I kind of regret not starting acting sooner,” Henke told The Tucson Citizen back in 1998. “But I think my life experiences before I found my calling have really helped me. I’m building my career by myself, on my own merits, not for what I did on the football field.”

Brad William Henke and Quincy Chad in “Orange Is the New Black” in 2016.
©Netflix/Courtesy Everett Colle

His most recent television role was in an April 2022 episode of “Law & Order: SVU,” in which he played a police captain. His prolific career totaled more than 100 acting credits, with roles in TV shows including “The Stand,” “MacGyver,” “ER,” “Chicago Hope,” “Hawaii Five-0,” “Nash Bridges,” “Arli$$,” “The Bridge,” “Justified,” “Shameless,” Sneaky Pete,” “CSI: Miami,” “Dexter,” “Crossing Jordan,” The Office” and “Judging Amy.”

Brad William Henke appears in a Season 5 episode of “Orange Is the New Black.” His cause of death has not been released.
©Netflix/Courtesy Everett Colle

Henke appeared in several movies during his career, including “The Assassination of Richard Nixon,” “Me and You and Everyone We Know,” “Must Love Dogs,” “The Zodiac,” “North Country,” “World Trade Center” and “Hollywoodland.”

This year’s movie “Black Party” was his last acting credit.

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Science

A black hole ripped apart a star in a galaxy far, far away

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It was an event not seen in more than a decade: a sudden flash of energy launched out from the center of a distant galaxy, bright enough to be visible from 8.5 billion light-years away. With a burst of light equivalent to more than 1,000 trillion suns, the flash was first detected by the Zwicky Transient Facility, a survey of the entire night sky conducted from the Palomar Observatory in California. 

“On Valentine’s Day this year, we found a source that was puzzling. It was just weird!” Igor Andreoni of the University of Maryland, lead author of one of two papers about the event, told The Verge. “And weird is good in science. It means it’s something you can learn from.”

Within days, astronomers around the world turned their telescopes toward the flash, observing it in X-ray, radio, and other wavelengths. It was extraordinarily bright and was similar to a gamma-ray burst — a type of bright flash usually detected by gamma ray or X-ray telescopes. But this one had been spotted by an optical telescope.

The tremendous brightness of the flash led astronomers to conclude that it must have been caused by a star being torn apart. A star had wandered too close to the supermassive black hole at the heart of a galaxy and been shredded by the gravitational forces. “It can completely rip apart the star. It’s literally pulled and stretched until it can’t stand together anymore,” Andreoni explained. This is called a tidal disruption event, and astronomers have spotted dozens of these events over recent years. 

“Weird is good in science. It means it’s something you can learn from”

What is unusual about this particular event is that it created a tremendous jet of energy, with material being thrown out from the black hole’s poles at close to the speed of light. “We don’t know why, but sometimes a very powerful jet of material is launched when the star is disrupted,” Andreoni said. This jet is thought to have been especially bright because it is pointed directly at Earth, making it both appear brighter and be visible across a broader part of the electromagnetic spectrum.

To spot dramatic transient events like these, astronomers need telescopes that continually scan as much of the sky as possible and which flag any sudden changes in brightness — like the Zwicky Transient Facility. But there are thousands of changes in brightness observed every night, so this mountain of data needs to be refined to unearth the most interesting objects. Andreoni’s group works on sifting through this data to find very fast events in the optical wavelength.

Sudden changes in brightness could potentially be caused by a supernova or by two neutron stars merging. Further observations are needed to understand the specific event that triggered the flash. A supernova, for example, brightens over a period of weeks, which is extremely fast by astronomical standards. But this particular event brightened even faster than that, within a few hours or days. That made it of immediate and pressing interest. 

The group flagged this flash to the international community, encouraging researchers who worked using telescopes operating in other wavelengths like radio or X-ray to observe it, too. In total, 21 telescopes contributed data on the event. “When all the pieces of the puzzle were acquired and put together, this picture emerged which was just astonishing,” Andreoni said. “We were not expecting to find such a rare source, and definitely not in the optical.”

Of the stars that are ripped apart by black holes, only around 1 percent seem to produce these powerful jets, but researchers still aren’t sure exactly why. As the star is pulled apart and its material is pulled in toward the black hole, the energy of this matter is converted into light. It’s theorized that the magnetic fields and spin of the black hole could act together to send material shooting out from its poles — like a tube of paint squeezed in the middle until material flies out of either end.

“We’re talking about thousands of times the mass of the Earth that is pulled apart and spun up and launched at close to the speed of light. It’s a really unique opportunity to study something that is impossible to reproduce on Earth,” Andreoni said.

This was the first time that such a jet had been detected in the visible light part of the electromagnetic spectrum, also known as the optical wavelength. Previously, jets from around black holes had been detected by looking at X-rays, gamma rays, and radio waves.

This both tells astronomers something about the environment around the black hole — that it is not that dense because it allowed optical light to pass through — and shows that looking in the optical range could be a useful way to spot these extreme events in the future.

“We’re talking about thousands of times the mass of the Earth that is pulled apart and spun up and launched at close to the speed of light.”

The need for telescopes to respond quickly to such events is also creating an impetus for greater flexibility in telescope design and planning. Telescopes like Hubble or James Webb are vastly oversubscribed, meaning many more researchers apply for time on the telescope than it is possible to accommodate. That’s why observing time is meticulously planned out years in advance and every last minute of observation time is filled as much as possible. But there’s also a need for telescopes that can respond to rare events within hours or even minutes.

It’s hard to safely and quickly change the direction of a space-based telescope, so Hubble and the James Webb Space Telescope only occasionally contribute to this kind of research. But recently built ground-based telescopes, like the MASTER network or the GROWTH-India telescope, specialize in scanning the sky for gamma-ray events and immediately and autonomously moving to observe them.

And there’s always the option of a human-based intervention. “Sometimes you literally have to call people up and say, ‘Hey, can you please point the telescope at these or those coordinates?’” Andreoni said. In other cases, researchers submit requests through online systems to make observations during available moments. There’s increasing interest in considering how telescopes can respond to these brief and rare but scientifically important events.

Both the international cooperation between researchers working with different telescopes and the ability of those telescopes to respond rapidly were essential for making this breakthrough in black hole observations, Andreoni said. “This was extremely important for this kind of discovery. If we couldn’t do it with any telescope, we would have not realized that we were sitting on such a big discovery.”

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World

China mourns former leader Jiang Zemin with bouquets, black front pages

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BEIJING/SHANGHAI, Dec 1 (Reuters) – Chinese newspapers turned their front pages black on Thursday and flags were put at half mast in mourning for the death of former president Jiang Zemin, while well-wishers laid piles of bouquets outside his childhood home.

Jiang died in his home city of Shanghai just after noon on Wednesday of leukaemia and multiple organ failure, aged 96.

His death has prompted a wave of nostalgia for the relatively more liberal times he oversaw.

A date has yet to be set for his funeral.

The front page of the ruling Communist Party’s official People’s Daily devoted its whole front page to Jiang, and carried a large picture of him wearing his trademark “toad” glasses.

“Beloved comrade Jiang Zemin will never be forgotten,” it said in its headline, above a story republishing the official announcement of his death.

Flags flew at half mast on key government buildings and Chinese embassies abroad, while the home pages of e-commerce platforms Taobao and JD.com also turned black and white.

Mourners laid piles of bouquets of white chrysanthemums, a traditional Chinese symbol for mourning, outside Jiang’s childhood home in the eastern city of Yangzhou, a witness told Reuters, declining to be identified given sensitivities about discussing anything political in China.

Some people knelt down in front of his house in a show of respect, the person added.

“Grandpa Jiang, rest in peace,” read a note on one bouquet.

In Shanghai, where Jiang died, police closed off streets but hundreds of people still tried to catch a glimpse of a vehicle thought to be carrying his body, according to images that were shared on Chinese social media.

In one picture, people held up a black and white banner reading “Comrade Jiang Zemin you will forever live in our hearts”.

FOREIGNERS NOT INVITED

But foreign governments, political parties and “friendly personages” will not be invited to send delegations or representatives to China to attend the mourning activities, the official Xinhua news agency said.

At one of the largest foreign banks in China, employees have been asked to wear black in meetings with regulators, senior staff have been asked not to be photographed at parties and the bank has put marketing activities on hold for 10 days, a senior executive at the lender told Reuters, speaking on condition of anonymity as they were not authorised to speak to the media.

Jiang’s death comes at a tumultuous time in China, where authorities are grappling with rare widespread street protests among residents fed up with heavy-handed COVID-19 curbs nearly three years into the pandemic.

China is also locked in an increasingly bad-tempered stand-off with the United States and its allies over everything from Chinese threats to democratically-governed Taiwan to trade and human rights issues.

While Jiang could have a fierce temper, his jocular side where he would sometimes sing for foreign dignitaries and joke around with them stand in marked contrast to his stiffer successor Hu Jintao and current President Xi Jinping.

“Having someone educated as leader really is a good thing, RIP,” wrote one user on WeChat adding a candle emoji.

Some Chinese social media users have posted pictures and videos of Jiang speaking or laughing and articles about his 1997 speech at Harvard University in English, reminiscing about an era when China and the West were on better terms.

The U.S. and Japanese governments both expressed their condolences.

U.S. National Security Council spokesperson Adrienne Watson said that during his two visits to the United States as president as well as multiple other meetings with U.S. officials, Jiang worked to advance ties “while managing our differences – an imperative that continues today”.

Even Taiwan, which Jiang menaced with war games in the run up to the island’s first direct presidential election in 1996, said it had sent its “best wishes” to Jiang’s family, though it added he did “threaten the development of Taiwan’s democratic system and foreign exchanges with force”.

Reporting by Beijing and Shanghai newsrooms; Additional reporting by Engen Tham; Writing by Yew Lun Tian and Ben Blanchard; Editing by Raju Gopalakrishnan and Michael Perry

Our Standards: The Thomson Reuters Trust Principles.

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Science

Supermassive Black Hole Violently Rips Star Apart, Launches Relativistic Jet Toward Earth

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Illustration of a tidal disruption event (TDE). Credit: Carl Knox – OzGrav, ARC Centre of Excellence for Gravitational Wave Discovery, Swinburne University of Technology

Rare Sighting of Luminous Jet Spewed by Supermassive Black Hole

Astronomers discover a bright optical flare caused by a dying star’s encounter with a supermassive

Several things happen, according to University of Maryland (UMD) astronomer Igor Andreoni: first, the star is violently ripped apart by the black hole’s gravitational tidal forces—similar to how the Moon pulls tides on Earth but with greater strength. Next, pieces of the star are captured into a swiftly spinning disk orbiting the black hole. Finally, the black hole consumes what remains of the doomed star in the disk. This is what astronomers call a tidal disruption event (TDE).

However, in some extremely rare cases, the supermassive black hole launches “relativistic jets” after destroying a star. These are beams of matter traveling close to the speed of light. Andreoni discovered one such case with his team in the Zwicky Transient Facility (ZTF) survey in February 2022. After the group publicly announced the sighting, the event was named “AT 2022cmc.” The team published its findings on November 30, 2022, in the journal Nature.

“The last time scientists discovered one of these jets was well over a decade ago,” said Michael Coughlin, an assistant professor of astronomy at the University of Minnesota Twin Cities and co-lead on the project. “From the data we have, we can estimate that relativistic jets are launched in only 1% of these destructive events, making AT 2022cmc an extremely rare occurrence. In fact, the luminous flash from the event is among the brightest ever observed.”

TDE emissions. Credit: Zwicky Transient Facility/R.Hurt (Caltech/IPAC)

Before AT 2022cmc, the only two previously known jetted TDEs were discovered through gamma-ray space missions, which detect the highest-energy forms of radiation produced by these jets. As the last such discovery was made in 2012, new methods were required to find more events of this nature. To help address that need, Andreoni, who is a postdoctoral associate in the Department of Astronomy at UMD and

The Zwicky Transient Facility scans the sky using a state-of-the-art wide-field camera mounted on the Samuel Oschin telescope at the Palomar Observatory in Southern California. Credit: Palomar Observatory/Caltech

Follow-up observations with many observatories confirmed that AT 2022cmc was fading rapidly and the ESO Very Large Telescope revealed that AT 2022cmc was at cosmological distance, 8.5 billion light years away.

See Astronomical Signal Is Black Hole Jet Pointing Straight Toward Earth for related research on AT 2022cmc.

Reference: “A very luminous jet from the disruption of a star by a massive black hole” by Igor Andreoni, Michael W. Coughlin, Daniel A. Perley, Yuhan Yao, Wenbin Lu, S. Bradley Cenko, Harsh Kumar, Shreya Anand, Anna Y. Q. Ho, Mansi M. Kasliwal, Antonio de Ugarte Postigo, Ana Sagués-Carracedo, Steve Schulze, D. Alexander Kann, S. R. Kulkarni, Jesper Sollerman, Nial Tanvir, Armin Rest, Luca Izzo, Jean J. Somalwar, David L. Kaplan, Tomás Ahumada, G. C. Anupama, Katie Auchettl, Sudhanshu Barway, Eric C. Bellm, Varun Bhalerao, Joshua S. Bloom, Michael Bremer, Mattia Bulla, Eric Burns, Sergio Campana, Poonam Chandra, Panos Charalampopoulos, Jeff Cooke, Valerio D’Elia, Kaustav Kashyap Das, Dougal Dobie, José Feliciano Agüí Fernández, James Freeburn, Cristoffer Fremling, Suvi Gezari, Simon Goode, Matthew J. Graham, Erica Hammerstein, Viraj R. Karambelkar, Charles D. Kilpatrick, Erik C. Kool, Melanie Krips, Russ R. Laher, Giorgos Leloudas, Andrew Levan, Michael J. Lundquist, Ashish A. Mahabal, Michael S. Medford, M. Coleman Miller, Anais Möller, Kunal P. Mooley, A. J. Nayana, Guy Nir, Peter T. H. Pang, Emmy Paraskeva, Richard A. Perley, Glen Petitpas, Miika Pursiainen, Vikram Ravi, Ryan Ridden-Harper, Reed Riddle, Mickael Rigault, Antonio C. Rodriguez, Ben Rusholme, Yashvi Sharma, I. A. Smith, Robert D. Stein, Christina Thöne, Aaron Tohuvavohu, Frank Valdes, Jan van Roestel, Susanna D. Vergani, Qinan Wang and Jielai Zhang, 30 November 2022, Nature.
DOI: 10.1038/s41586-022-05465-8

Other UMD collaborators include: adjunct associate professor of astronomy Brad Cenko; astronomy professor M. Coleman Miller; graduate student Erica Hammerstein and Tomas Ahumada (M.S. ’20, astronomy).

The research was supported by the National Science Foundation (Grant Nos. PHY-2010970 425, OAC-2117997, 1106171 and AST-1440341), Wenner-Gren Foundation, Swedish Research Council (Reg. No. 427 2020-03330), European Research Council (Grant No. 759194 432 – USNAC), VILLUM FONDEN (Grant No. 19054), the Netherlands Organization for Scientific Research, Spanish National Research Project (RTI2018-098104-J-I00), NASA (Award No. No. 80GSFC17M0002), the Knut and Alice Wallenberg Foundation (Dnr KAW 2018.0067), Heising-Simons Foundation (Grant No. 12540303), European Union Seventh Framework Programme (Grant No. 312430) Caltech, IPAC, the Weizmann Institute for Science, the Oskar Klein Center at Stockholm University, the



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