Astronomers reveal evidence of universe’s ‘background hum’

An artistic interpretation of an array of pulsars being affected by gravitational ripples produced by a supermassive black hole binary in a distant galaxy. (Aurore Simonnet/NANOGrav Collaboration/Handout via REUTERS)
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Updated 29 June 2023
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Astronomers reveal evidence of universe’s ‘background hum’

  • First predicted by Albert Einstein more than a century ago, gravitational waves are ripples in the fabric of the universe that travel through everything at the speed of light almost entirely unimpeded

PARIS: Astronomers across the world announced on Thursday that they have found the first evidence of a long-theorized form of gravitational waves that create a “background hum” rumbling throughout the universe.
The breakthrough — made by hundreds of scientists using radio telescopes in North America, Europe, China, India and Australia after years of work — was hailed as a major milestone that opens a new window into the universe.
First predicted by Albert Einstein more than a century ago, gravitational waves are ripples in the fabric of the universe that travel through everything at the speed of light almost entirely unimpeded.
Their existence was not confirmed until 2015, when the US and Italian observatories detected the first gravitational waves created by two black holes colliding.
These “high-frequency” waves were the result of a single violent event that sends a strong, short burst rippling toward Earth.
But for decades scientists have been searching for low-frequency gravitational waves, thought to be constantly rolling through space like background noise.
Joining forces under the banner of the International Pulsar Timing Array consortium, scientists working at gravitational wave detectors on several continents revealed on Thursday they have finally found strong evidence of these background waves.
“We now know that the universe is awash with gravitational waves,” Michael Keith of the European Pulsar Timing Array told AFP.




An artistic interpretation of an array of pulsars being affected by gravitational ripples produced by a supermassive black hole binary in a distant galaxy. (Aurore Simonnet/NANOGrav Collaboration/Handout via REUTERS)

As gravitational waves travel through space, they very subtly squeeze and stretch everything they pass through.
To find evidence of this squeezing and stretching at low frequencies, astronomers looked at pulsars, the dead cores of stars that exploded in a supernova.
Some spin hundreds of times a second, flashing beams of radio waves at extremely regular intervals, like cosmic lighthouses.
This means they can act as “a very, very precise clock,” Keith said.
For the new research, radio telescopes around the world were aimed at a total of 115 pulsars throughout the Milky Way.
Scientists then measured the incredibly small differences in the timing of the pulses, searching for telltale signs of gravitational waves.
French astrophysicist Antoine Petiteau said they were able to “detect changes of less than one millionth of a second across more than 20 years.”
Maura McLaughlin of the US Pulsar Search Collaboratory program said they were “awestruck” after first seeing evidence of the waves in 2020.
It was “really a magical moment,” she told a press conference.
The early evidence was consistent with Einstein’s theory of relativity and science’s current understanding of the universe, the scientists said.
But they emphasised they have not yet definitively “detected” the waves, because they have not reached the gold-standard five sigma level of certainty. Five sigma indicates that there is a one-in-a-million chance of something being a statistical fluke.
“We’re frustratingly just shy of the mark,” Keith said, adding that there was a 99-percent probability that the evidence points to gravitational waves.
Each country or group in the consortium published their research separately in a range of journals.
Steve Taylor, chair of North America’s NANOGrav gravitational wave observatory, said that once all the data was combined, the five sigma mark could be reached in a year or two.

The leading theory is that the waves are coming from pairs of supermassive black holes sitting at the center of galaxies that are slowly merging.
Unlike those that caused the previously detected gravitational waves, these black holes are almost unimaginably huge — sometimes billions of times bigger than the Sun.
Daniel Reardon, a member of Australia’s Parkes Pulsar Timing Array, told AFP that — if confirmed — the waves would be “the sum of all of the supermassive black hole binary systems whirling around each other at the cores of galaxies everywhere in the universe.”
Keith said the “background hum of all these black holes” was “like sitting in a noisy restaurant and hearing all these people talking.”
Another theory is that the gravitational waves could be from the rapid expansion that came within a second after the Big Bang, a period called cosmic inflation that is hidden from the view of scientists.
Keith said the galaxies between Earth and the Big Bang were likely “drowning out” such waves.
But in the future, low-frequency gravitational waves could reveal more about this early expansion and possibly shed light on the mystery of dark matter, the scientists said.
It could also help them understand more about how black holes and galaxies form and evolve.
 


Santa and Mrs. Claus use military transports to bring Christmas to an Alaska Native village

Updated 2 min 33 sec ago
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Santa and Mrs. Claus use military transports to bring Christmas to an Alaska Native village

  • Operation Santa started in 1956 when flooding severely curtailed subsistence hunting for residents of St. Mary’s, in western Alaska
YAKUTAT, Alaska: Forget the open-air sleigh overloaded with gifts and powered by flying reindeer.
Santa and Mrs. Claus this week took supersized rides to southeast Alaska in a C-17 military cargo plane and a camouflaged Humvee, as they delivered toys to the Tlingit village of Yakutat, northwest of Juneau.
The visit was part of this year’s Operation Santa Claus, an outreach program of the Alaska National Guard to largely Indigenous communities in the nation’s largest state. Each year, the Guard picks a village that has suffered recent hardship — in Yakutat’s case, a massive snowfall that threatened to buckle buildings in 2022.
“This is one of the funnest things we get to do, and this is a proud moment for the National Guard,” Maj. Gen. Torrence Saxe, adjutant general of the Alaska National Guard, said Wednesday.
Saxe wore a Guard uniform and a Santa hat that stretched his unit’s dress regulations.
The Humvee caused a stir when it entered the school parking lot, and a buzz of “It’s Santa! It’s Santa!” pierced the cold air as dozens of elementary school children gathered outside.
In the school, Mrs. Claus read a Christmas story about the reindeer Dasher. The couple in red then sat for photos with nearly all of the 75 or so students and handed out new backpacks filled with gifts, books, snacks and school supplies donated by the Salvation Army. The school provided lunch, and a local restaurant provided the ice cream and toppings for a sundae bar.
Student Thomas Henry, 10, said while the contents of the backpack were “pretty good,” his favorite item was a plastic dinosaur.
Another, 9-year-old Mackenzie Ross, held her new plush seal toy as she walked around the school gym.
“I think it’s special that I have this opportunity to be here today because I’ve never experienced this before,” she said.
Yakutat, a Tlingit village of about 600 residents, is in the lowlands of the Gulf of Alaska, at the top of Alaska’s panhandle. Nearby is the Hubbard Glacier, a frequent stop for cruise ships.
Some of the National Guard members who visited Yakutat on Wednesday were also there in January 2022, when storms dumped about 6 feet (1.8 meters) of snow in a matter of days, damaging buildings.
Operation Santa started in 1956 when flooding severely curtailed subsistence hunting for residents of St. Mary’s, in western Alaska. Having to spend their money on food, they had little left for Christmas presents, so the military stepped in.
This year, visits were planned to two other communities hit by flooding. Santa’s visit to Circle, in northeastern Alaska, went off without a hitch. Severe weather prevented a visit to Crooked Creek, in the southwestern part of the state, but Christmas was saved when the gifts were delivered there Nov. 16.
“We tend to visit rural communities where it is very isolated,” said Jenni Ragland, service extension director with the Salvation Army Alaska Division. “A lot of kids haven’t traveled to big cities where we typically have Santa and big stores with Christmas gifts and Christmas trees, so we kind of bring the Christmas program on the road.”
After the C-17 Globemaster III landed in Yakutat, it quickly returned to Joint Base Elmendorf-Richardson in Anchorage, an hour away, because there was nowhere to park it at the village’s tiny airport. Later it returned to pick up the Christmas crew.
Santa and Mrs. Claus, along with their tuckered elves, were seen nodding off on the flight back.

Scientists observe ‘negative time’ in quantum experiments

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Updated 21 December 2024
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Scientists observe ‘negative time’ in quantum experiments

  • The researchers emphasize that these perplexing results highlight a peculiar quirk of quantum mechanics rather than a radical shift in our understanding of time

TORONTO, Canada: Scientists have long known that light can sometimes appear to exit a material before entering it — an effect dismissed as an illusion caused by how waves are distorted by matter.
Now, researchers at the University of Toronto, through innovative quantum experiments, say they have demonstrated that “negative time” isn’t just a theoretical idea — it exists in a tangible, physical sense, deserving closer scrutiny.
The findings, yet to be published in a peer-reviewed journal, have attracted both global attention and skepticism.
The researchers emphasize that these perplexing results highlight a peculiar quirk of quantum mechanics rather than a radical shift in our understanding of time.
“This is tough stuff, even for us to talk about with other physicists. We get misunderstood all the time,” said Aephraim Steinberg, a University of Toronto professor specializing in experimental quantum physics.
While the term “negative time” might sound like a concept lifted from science fiction, Steinberg defends its use, hoping it will spark deeper discussions about the mysteries of quantum physics.

Years ago, the team began exploring interactions between light and matter.
When light particles, or photons, pass through atoms, some are absorbed by the atoms and later re-emitted. This interaction changes the atoms, temporarily putting them in a higher-energy or “excited” state before they return to normal.
In research led by Daniela Angulo, the team set out to measure how long these atoms stayed in their excited state. “That time turned out to be negative,” Steinberg explained — meaning a duration less than zero.
To visualize this concept, imagine cars entering a tunnel: before the experiment, physicists recognized that while the average entry time for a thousand cars might be, for example, noon, the first cars could exit a little sooner, say 11:59 am. This result was previously dismissed as meaningless.
What Angulo and colleagues demonstrated was akin to measuring carbon monoxide levels in the tunnel after the first few cars emerged and finding that the readings had a minus sign in front of them.

The experiments, conducted in a cluttered basement laboratory bristling with wires and aluminum-wrapped devices, took over two years to optimize. The lasers used had to be carefully calibrated to avoid distorting the results.
Still, Steinberg and Angulo are quick to clarify: no one is claiming time travel is a possibility. “We don’t want to say anything traveled backward in time,” Steinberg said. “That’s a misinterpretation.”
The explanation lies in quantum mechanics, where particles like photons behave in fuzzy, probabilistic ways rather than following strict rules.
Instead of adhering to a fixed timeline for absorption and re-emission, these interactions occur across a spectrum of possible durations — some of which defy everyday intuition.
Critically, the researchers say, this doesn’t violate Einstein’s theory of special relativity, which dictates that nothing can travel faster than light. These photons carried no information, sidestepping any cosmic speed limits.

The concept of “negative time” has drawn both fascination and skepticism, particularly from prominent voices in the scientific community.
German theoretical physicist Sabine Hossenfelder, for one, criticized the work in a YouTube video viewed by over 250,000 people, noting, “The negative time in this experiment has nothing to do with the passage of time — it’s just a way to describe how photons travel through a medium and how their phases shift.”
Angulo and Steinberg pushed back, arguing that their research addresses crucial gaps in understanding why light doesn’t always travel at a constant speed.
Steinberg acknowledged the controversy surrounding their paper’s provocative headline but pointed out that no serious scientist has challenged the experimental results.
“We’ve made our choice about what we think is a fruitful way to describe the results,” he said, adding that while practical applications remain elusive, the findings open new avenues for exploring quantum phenomena.
“I’ll be honest, I don’t currently have a path from what we’ve been looking at toward applications,” he admitted. “We’re going to keep thinking about it, but I don’t want to get people’s hopes up.”
 

 


‘Don’t hit him too hard!’: Zelensky tells Usyk not to endanger British arms deal

Updated 20 December 2024
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‘Don’t hit him too hard!’: Zelensky tells Usyk not to endanger British arms deal

  • Ukraine President Volodymyr Zelensky jokes for Oleksandr Usyk to be gentle with British rival Tyson Fury to not harm UK weapon supplies

PARIS: Ukraine President Volodymyr Zelensky pleaded with boxing star Oleksandr Usyk to be gentle with British rival Tyson Fury in their world heavyweight clash in case a battering delivers a knockout blow to a crucial arms deal.
Usyk defeated Fury in May to become the undisputed heavyweight champion of the world and the two men meet again in Riyadh on Saturday.
“All Ukrainians are on your side. Of course, Britain is helping Ukraine in a fight against Russia,” Zelensky told Usyk on Friday in a video on Zelensky’s Telegram account.
“We respect our partners. That’s why when you beat Fury, don’t hit him too hard, because we don’t want them to ban Storm Shadow.”
British media reported last month that Ukraine had fired Storm Shadow missiles into Russia for the first time after London gave Kyiv the green light for such strikes.
The UK government refused to confirm or deny the reports.


Britain’s Stonehenge is yet again a source of fascination ahead of the winter solstice

Updated 20 December 2024
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Britain’s Stonehenge is yet again a source of fascination ahead of the winter solstice

LONDON: It’s that time of year when crowds of pagans, druids, hippies and tourists head to Stonehenge in Britain to celebrate the winter solstice, with the shortest day and the longest night in the Northern Hemisphere.
Thousands are expected on Saturday at the megalithic circle on a plain in southern England as the first rays of sun break through the giant stones that make up one of world’s most famous prehistoric monuments.
Rain has been forecast but there is no doubt it won’t be able to drown out the drumming, chanting and cheering.
Beyond the fascination of the ritual, the eternal question may still linger in the back of the minds of many visitors: What was the real meaning and purpose of Stonehenge?
The site has been the subject of vigorous debate, with some theories seemingly more outlandish, if not alien, than others.
This year, those gathering will have something new to discuss.
In a paper published in the journal Archaeology International, researchers from University College London and Aberystwyth University say that the site on Salisbury Plain, about 128 kilometers (80 miles) southwest of London, may have had some unifying purpose in ancient times.
They base that on a recent discovery that one of Stonehenge’s stones — the unique stone lying flat at the center of the monument, dubbed the “altar stone” — originated in Scotland, hundreds of miles north of the site.
What was surprising was that it came from so far away. It was long known that the other stones come from all over Britain — including the so-called bluestones, the smaller stones at the site that came from Preseli Hills in southwest Wales, nearly 240 kilometers (150 miles) away.
That varied geology is what makes Stonehenge unique among over 900 stone circles in Britain.
“The fact that all of its stones originated from distant regions ... suggests that the stone circle may have had a political as well as a religious purpose,” said lead author Professor Mike Parker Pearson from UCL’s Institute of Archaeology.
It may have served as a “monument of unification for the peoples of Britain, celebrating their eternal links with their ancestors and the cosmos,” Parker Pearson said.
Whatever its original purpose, Stonehenge today retains an important place in Britain’s culture and history and remains one of the country’s biggest tourist draws — despite the seemingly permanent traffic jams on the nearby A303 highway, a popular route for motorists traveling to and from the southwest of England.
Stonehenge was built on the flat lands of Salisbury Plain in stages, starting 5,000 years ago, with the unique stone circle erected in the late Neolithic period, about 2,500 B.C.
English Heritage, a charity that manages hundreds of historic sites, including Stonehenge, has noted several explanations — from the circle being a coronation place for Danish kings, a druid temple, a cult center for healing, or an astronomical computer for predicting eclipses and solar events.
So as far as symbolism and unification go — maybe Stonehenge really was a Mount Rushmore of its day?


Starbucks workers’ union to strike in LA, Chicago, Seattle before Christmas

Updated 20 December 2024
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Starbucks workers’ union to strike in LA, Chicago, Seattle before Christmas

The workers’ union representing more than 10,000 Starbucks baristas said its members will strike at stores in Los Angeles, Chicago, and Seattle on Friday morning during the busy holiday season.
Workers United, representing employees at 525 Starbucks stores across the United States, said that walkouts are expected to escalate daily, potentially reaching hundreds of stores nationwide by Christmas Eve, unless Starbucks and the union finalize a collective bargaining agreement.
The union and Starbucks created a “framework” in February to guide organizing and collective bargaining. Negotiations between the company and Workers United began in April, based on the framework, that could also help resolve numerous pending legal disputes.
“Since the February commitment, the company repeatedly pledged publicly that it intended to reach contracts by the end of the year, but it has yet to present workers with a serious economic proposal,” the union said in a statement late on Thursday.
Starbucks did not immediately respond to a request for comment.
The coffee chain is undergoing a turnaround under its newly appointed top boss Brian Niccol, who aims to restore “coffee house culture” by overhauling cafes, adding more comfortable seating, reducing customer wait-time to less than four minutes, and simplifying its menu.