[Tee tiong huat]

Voyager one! how many miles from earth?. 15.46 billion miles (24.96 billion kilometers) from Earth, making it the farthest human-made object in space, equates to roughly 166.278 AU (Astronomical Units) away from Earth.

Deep Space Optical Communications (DSOC) such system NASA project uses laser beams for high-speed data transmission in deep space, offering a significant improvement over traditional radio frequency (RF) communications. It consists of a flight laser transceiver on the Psyche spacecraft, a ground laser transmitter, and a ground laser receiver. And the signal only took 50 seconds to travel the distance. DSOC uses infrared light, about 84,000 mph (135,000 kph). Over time, with no atmospheric drag to slow it down, Psyche will accelerate to speeds of up to 124,000 mph (200,000 kph). Spacecraft Psyche
can arrive at metal-rich asteroid Psyche in 2029 will make observations from orbit for two years.
NASA’s deep space laser test
Here’s what actually happened: NASA successfully sent & received a laser through communication from Psyche as it cruised 460 million kilometers (286 million miles) away from Earth, captured by Hale Telescope at Palomar Observatory in California, it farthest successful laser communication ever performed so far away.

DSOC system aboard Psyche sent the encoded data via infrared laser light, proving laser-based communication is not only possible, but reliable over staggering distances. To grasp the scale of this achievement, picture trying to aim a laser pointer at a moving marble from across the country, you’re also in motion. That’s essentially what NASA’s engineers pulled off. The Psyche spacecraft is constantly moving through the vastness of space, as is Earth. Despite this, DSOC system managed to send a focused infrared laser beam across 460 million kilometers, and it landed squarely on target at the Hale Telescope. And the signal only took 50 seconds to travel the distance. DSOC uses infrared light, much shorter wavelengths than traditional radio waves. This allows it to pack more data into the beam, meaning future space missions could send back high-definition videos, vast scientific data sets, and even real-time messages from the far reaches of the solar system.

[Tee tiong huat]

Voyager 1 miles from earth?. 15.46 billion miles (24.96 billion kilometers) from Earth, making it the farthest human-made object in travel though space equates to roughly 166.278 AU (Astronomical Units) away from Earth.

Psyche cruised or travel 460 million kilometers (for compare only >286< million miles) away from Earth,

[Tee tiong huat]

Voyager 1 miles from earth?.
15.46 billion miles (24.96 billion kilometers) from Earth, making it the farthest human-made object in space. This equates to roughly 166.278 AU (Astronomical Units) away from Earth.

Confirmed – NASA repaired the Voyager 1 engines at the last minute, allowing the legendary probe to continue its journey through interstellar space.

[Tee tiong huat]

11years old when the Smithsonian National Air and Space Museum was unveiled in his home city of Washington, D.C. in the summer of 1976. He and millions of other visitors explored the museum’s halls to marvel at decades-old airplanes and space modules that had only just returned Earth-side, including the Apollo 11’s command module, Columbia. It had remained in orbit as Neil Armstrong and “Buzz” Aldrin became the first human beings to set foot on the moon. For White, visiting the museum became a pivotal moment that would ripple through his life and career as both a NASA scientist and dogged investigator of one of science’s most challenging problems: how to reach the stars.

[Tee tiong huat]

While Earth Gets Its First Deep-Space Laser Message—From 16km away!. 
Hope NASA can groundbreaking achievement to reach feels straight out of science fiction hope laser message from space can traveled  more farther, staggering only 16 million km, setting the stage for a farther to new era in space communication....toward Voyager 1 miles from earth?.15.46 billion miles (24.96 billion kilometers) from Earth.

Scientists may have discovered a powerful particle collider in the universe.

[Tee tiong huat]

Scientists may have discovered a powerful particle collider in the universe.

Scientists may have discovered the most powerful particle colliders in the universe — and they're strewn throughout our galaxy just waiting to blow. Supernovas can become some of the most powerful particle colliders in the universe — but only if they pass a whole lot of gas be4 they explode, new research finds.

For almost a century, astronomers have detected high-energy particles streaming in from the distant universe. Known as cosmic rays, they are made primarily of protons and, occasionally, nuclei of heavier elements. Most cosmic rays are deflected by Earth's magnetic field or are absorbed in the upper atmosphere, but some make it all the way to the surface. Roughly once every second, a cosmic ray manages to strike your body.

The cosmic rays span a broad range of energies, with the most powerful ones topping one peta-electron volt (PeV). That's one quadrillion electron volts, or up to a thousand times more powerful than the collision energies of the Large Hadron Collider, the world's most powerful atom smasher...You may like: 

1) Most powerful cosmic rays in the universe start shockingly close to Earth, paper claims.
 2) 'Beauty' particle discovered at world's largest atom smasher could unlock new physics and 
3) The world's largest atom smasher is getting a powerful new upgrade.

[Tee tiong huat]

Voyager 1 miles from earth?.
15.46 billion miles (24.96 billion kilometers) from Earth, making it the farthest human-made object in space. This equates to roughly 166.278 AU (Astronomical Units) away from Earth.

The farthest artificially built object to be placed in space. Whether we desire extraterrestrial life, more planets, or It is still in the Milky Way and has travelled approximatel nearer to next Pluto is was still long considered where the ninth planet of the solar system is in our soler system, but changes to the definition of planet got it kicked out of the planetary club. Now, scientists are close to finally answering a pressing question: Is there another planet hiding out there?. We May to Find the Ninth Planet in Our Solar System This Year.  Why Do Some Scientists Think Planet Nine Exists?. In the 19th century, scientists studying the planet Uranus noticed something weird: it’s orbit was slightly “wrong.” After surveying it for nearly a century, it wasn’t quite where it should have been. The only explanation was that something was ever-so-slightly upsetting Uranus’s orbit.

[Tee tiong huat]

NASA confirms it—the Hubble Space Telescope has detected the galaxy LEDA 42160, and its spiral structure has left astronomers speechless.

[Tee tiong huat]

NASA confirms it—the Hubble Space Telescope has detected the galaxy LEDA 42160, and its spiral structure has left astronomers speechless.

Nothing is as we thought—NASA detects just when we thought Hubble was finally ready for space retirement, it drops the best galaxy shot we have seen in a long time like a seasoned paparazzo nailing a perfect shot. Space telescope, launched in 1990 still ticking, has captured a galaxy so bizarre, so elegantly structured, that even the most jaded astronomers had to pause their coffee and go: “Wait, what?” Meet LEDA 42160, an unassuming name for what looks like a glowing ripple in the dark. Much like a cosmic bullseye, except instead of winning a teddy bear, you get a galaxy with nine star-forming rings.

So… LEDA what?. Let’s be honest, LEDA 42160 sounds like a printer model, not a galaxy because it’s a catalog name—just a database number in the Lyon-Meudon Extragalactic Database. Sexy? Not at all. But that’s how science works. First the catalog number, then the nickname. And in this case, “Bullseye Galaxy” is what astronomers have started calling it—because apparently “rippling space pancake of wonder” didn’t fit the academic vibe. Meet LEDA 42160, an unassuming name looks like a glowing ripple in the dark. Much like a cosmic bullseye, except instead of winning a teddy bear, you get a galaxy with nine star-forming rings.

The space telescope, launched in 1990 and still ticking, has captured a galaxy so bizarre, so elegantly structured, that even the most jaded astronomers had to pause their coffee and go: “Wait, what?”
But that’s how science works. First the catalog number, then the nickname & in this case, “Bullseye Galaxy” is what astronomers have started calling it—apparently not your average galaxy
Weird beauty sits about 500 million light-years away in constellation Canes Venatici, quietly one of strangest things we’ve seen in a long time. Unlike your typical spiral galaxy that swirls like space soft-serve, LEDA 42160 looks like someone dropped a stone into the universe & took a picture of the splash.
Scientists spotted it using the Hubble Space Telescope and then brought in backup —the Keck Observatory in Hawaii— confirm what seeing wasn’t just an optical fluke. What makes this even more absurd? Galaxies don’t usually rock nine rings. You’re lucky to find two. This one came stacked...up.

[Tee tiong huat]

Nothing is as we thought—NASA detects just when we thought Hubble was finally ready for space retirement, it drops the best galaxy shot we have seen in a long time like a seasoned paparazzo nailing a perfect shot. Space telescope, launched in 1990 still ticking, has captured a galaxy so bizarre, so elegantly structured, that even most jaded astronomers had to pause their coffee go: “Wait, what?.
Meet LEDA 42160, unassuming name for what looks like a glowing ripple in the dark. Much like a cosmic bullseye, except instead of winning a teddy bear, you get a galaxy with nine star-forming rings.

So… LEDA what?. Let’s be honest, LEDA 42160 sounds like a printer model, not a galaxy because it’s a catalog name—just a database number in Lyon-Meudon Extragalactic Database. Sexy? Not at all. But that’s how science works. First the catalog number, then nickname. And in this case, “Bullseye Galaxy” astronomers started calling it—b'cos apparently “rippling space pancake of wonder” didn’t fit academic vibe unassuming name looks like a glowing ripple in the dark. Much a cosmic bullseye, except instead of winning a teddy bear, U get a galaxy with 9 star-forming rings.

The space telescope, launched in 1990 and still ticking, has captured a galaxy so bizarre, so elegantly structured, that even the most jaded astronomers had to pause their coffee and go: “Wait, what?”. But that’s how science works. First the catalog number, then the nickname & in this case, “Bullseye Galaxy” is what astronomers have started calling it—apparently not your average galaxy
Weird beauty sits about 500 million light-years away in constellation Canes Venatici, quietly one of strangest things we’ve seen in a long time. Unlike your typical spiral galaxy that swirls like space soft-serve, LEDA 42160 looks like someone dropped a stone into the universe & took a picture of the splash.
Scientists spotted it using the Hubble Space Telescope and then brought in backup —the Keck Observatory in Hawaii— confirm what seeing wasn’t just an optical fluke. What makes this even more absurd? Galaxies don’t usually rock nine rings. You’re lucky to find two. This one came stacked...up.

https://eladelantado.com/news/hubble-bul...eda-42160/

[Tee tiong huat]

https://youtu.be/Is8G5zsAbvI?si=MlmIxpIaiDycd9R7

[Tee tiong huat]

Deep Space Optical Communications (DSOC) such system NASA project uses laser beams for high-speed data transmission in deep space, offering a significant improvement over traditional radio frequency (RF) communications. It consists of a flight laser transceiver on the Psyche spacecraft, a ground laser transmitter, and a ground laser receiver. And the signal only took 50 seconds to travel the distance. DSOC uses infrared light, about 84,000 mph (135,000 kph). Over time, with no atmospheric drag to slow it down, Psyche will accelerate to speeds of up to 124,000 mph (200,000 kph). Spacecraft Psyche
can arrive at metal-rich asteroid Psyche in 2029 will make observations from orbit for two years.

DSOC system aboard Psyche sent the encoded data via infrared laser light, proving laser-based communication is not only possible, but reliable over staggering distances. To grasp the scale of this achievement, picture trying to aim a laser pointer at a moving marble from across the country, you’re also in motion. That’s essentially what NASA’s engineers pulled off. The Psyche spacecraft is constantly moving through the vastness of space, as is Earth. Despite this, DSOC system managed to send a focused infrared laser beam across 460 million kilometers, and it landed squarely on target at the Hale Telescope. And the signal only took 50 seconds to travel the distance. DSOC uses infrared light, much shorter wavelengths than traditional radio waves. This allows it to pack more data into the beam, meaning future space missions could send back high-definition videos, vast scientific data sets, and even real-time messages from the far reaches of the solar system.

NASA’s deep space laser test
Here’s what actually happened: NASA successfully sent & received a laser through communication from Psyche as it cruised 460 million kilometers (286 million miles) away from Earth, captured by Hale Telescope at Palomar Observatory in California, it farthest successful laser communication ever performed so far away.

Light teleported for the first time in history ― Potential to beam it across to other galaxies...

[Tee tiong huat]

NASA’s deep space laser test
Here’s what actually happened: NASA successfully sent & received a laser through communication from Psyche as it cruised 460 million kilometers (286 million miles) away from Earth, captured by Hale Telescope at Palomar Observatory in California, it farthest successful laser communication ever performed so far away.

Light teleported for the first time in history ― Potential to beam it across to other galaxies...

https://www.ecoportal.net/en/light-telep...e_vignette

[Tee tiong huat]

NASA’s deep space laser test. Here’s what actually happened: NASA successfully sent & received a laser through communication from Psyche as it cruised 460 million kilometers (286 million miles) from Earth, captured by Hale Telescope at Palomar Observatory in California, it successful laser communication ever performed so far away.

Light teleported for the first time in history ― Potential to beam it across to other galaxies...

The speed of light is a concept that intrigues scientists, but it’s just as absolute as black holes. For light to travel from point A to point B, it moves around 300,000 kilometers per second, and this is just for humans to be able to see something that happened millions of years ago in the universe, across galaxies. But, what if we can send a beam of light across the Milky Way and reach other borders? Scientists put the test to the challenge, and the results opened a new discussion about how far it can go without a “break.” 

Scientists had successfully teleported light for first time.

Light is not just born, it’s created from atomic reactions. After the electrons gain energy, they move to a higher energy level “section” inside the atom, but the amount of power the electron holds is not sustainable, so when it collapses, it releases energy as a photon. The photon travels through space as light, carrying a specific amount of energy responsible for color or type. The electrons bounce back and forth between energy levels,& that’s why can see light b'cas atoms constantly exploding & gaining power again. Scientists have studied phenomenon for decades, analyzing behavior of photons, electrons,& other particles that make up the universe. Meanwhile, engineers have been working outside the study room & recently made a major discovery about photons. Researchers from University of Tennessee, EPB of Chattanooga, and the Dept of Energy’s Oak Ridge National Lab managed to maintain a quantum entanglement between pairs of photons for over 30 uninterrupted hours. How in order to make this achievement even a more impressive real-world applications, scientists used an optic fiber network.     

What makes discovery so impactful?
A quantum entanglement is a connection between two or more particles means whatever happens to one, it instantly matches the other, no matter how far apart they are – Einstein referred to this as “spooky action at a distance” because nothing behaves like this in nature. How connection between two photons can be fragile, and it can be broken. To maintain stability signal scientists used a system automatically adjusts way photons are spinning as they travel, technique, called in direction that might happen along the way, reinforcing the connection of the photons in the quantum entanglement by minimizing the disruptions caused by the environment that might interfere with the signal. The uninterrupted signal shared between the 3 institutes – all located in Chattanooga, Tennessee – traveled only about half a mile.

Future implications of sending signals across galaxy?.

A stable quantum connection between photons — and the researchers’ ability to bring it into the real world — could lay the foundation for a future where info travels faster & farther than anything we’ve seen before. While we’d still rely on speed of light to send a message or beam across space, quantum entanglement could allow receiving side to get the signal instantly, without waiting millions of years for it to arrive. How long 2 photons can still maintain quantum connection is next for the scientists to work out come soon or later, in their brain & mind.

[Tee tiong huat]

The speed of light is a concept that intrigues scientists, but it’s just as absolute as black holes. For light to travel point A to B, it moves around 300,000 k/m per second,& just for humans to be able to see something happened millions of years ago in the universe, across galaxies. But, if we can send beam of light across Milky Way & reach other?. They put test to challenge, results opened a new discussion how far it can go...

Scientists successfully teleported light 1st time.

Light is not just born, it’s created from atomic reactions. After the electrons gain energy, they move to a higher energy level “section” inside the atom, but the amount of power the electron holds is not sustainable, so when it collapses, it releases energy as a photon. The photon travels through space as light, carrying a specific amount of energy responsible for color or type. The electrons bounce back and forth between energy levels,& that’s why can see light b'cas atoms constantly exploding & gaining power again. Scientists have studied phenomenon for decades, analyzing behavior of photons, electrons,& other particles that make up the universe. Meanwhile, engineers have been working outside the study room & recently made a major discovery about photons. Researchers from University of Tennessee, EPB of Chattanooga, and the Dept of Energy’s Oak Ridge National Lab managed to maintain a quantum entanglement between pairs of photons for over 30 uninterrupted hours. How in order to make this achievement even a more impressive real-world applications, scientists used an optic fiber network.     

What makes discovery so impactful?
A quantum entanglement is a connection between two or more particles means whatever happens to one, it instantly matches the other, no matter how far apart they are – Einstein referred to this as “spooky action at a distance” because nothing behaves like this in nature. How connection between two photons can be fragile, and it can be broken. To maintain stability signal scientists used a system automatically adjusts way photons are spinning as they travel, technique, called in direction that might happen along the way, reinforcing the connection of the photons in the quantum entanglement by minimizing the disruptions caused by the environment that might interfere with the signal. The uninterrupted signal shared between the 3 institutes – all located in Chattanooga, Tennessee – traveled only about half a mile.

Future of sending signals across galaxy is x. Soon.l

A stable quantum connection between photons — and the researchers’ ability to bring it into the real world — could lay the foundation for a future where info travels faster & farther than anything we’ve seen before. While we’d still rely on speed of light to send a message or beam across space, quantum entanglement could allow receiving side to get the signal instantly, without waiting millions of years for it to arrive. How long 2 photons can still maintain quantum connection is next for the scientists to work out come soon or later, in their brain & mind.

[Tee tiong huat]

The speed of light is a concept that intrigues scientists, but it’s just as absolute as black holes. For light to travel from point A to point B, it moves around 300,000 kilometers per second, and this is just for humans to be able to see something that happened millions of years ago in the universe, across galaxies. But, what if we can send a beam of light across the Milky Way and reach other borders? Scientists put the test to the challenge, and the results opened a new discussion about how far it can go without a “break.” 

Scientists had successfully teleported light for first time.

Light is not just born, it’s created from atomic reactions. After the electrons gain energy, they move to a higher energy level “section” inside the atom, but the amount of power the electron holds is not sustainable, so when it collapses, it releases energy as a photon. The photon travels through space as light, carrying a specific amount of energy responsible for color or type. The electrons bounce back and forth between energy levels,& that’s why can see light b'cas atoms constantly exploding & gaining power again. Scientists have studied phenomenon for decades, analyzing behavior of photons, electrons,& other particles that make up the universe. Meanwhile, engineers have been working outside the study room & recently made a major discovery about photons. Researchers from University of Tennessee, EPB of Chattanooga, and the Dept of Energy’s Oak Ridge National Lab managed to maintain a quantum entanglement between pairs of photons for over 30 uninterrupted hours. How in order to make this achievement even a more impressive real-world applications, scientists used an optic fiber network.     

What makes discovery so impactful?
A quantum entanglement is a connection between two or more particles means whatever happens to one, it instantly matches the other, no matter how far apart they are – Einstein referred to this as “spooky action at a distance” because nothing behaves like this in nature. How connection between two photons can be fragile, and it can be broken. To maintain stability signal scientists used a system automatically adjusts way photons are spinning as they travel, technique, called in direction that might happen along the way, reinforcing the connection of the photons in the quantum entanglement by minimizing the disruptions caused by the environment that might interfere with the signal. The uninterrupted signal shared between the 3 institutes – all located in Chattanooga, Tennessee – traveled only about half a mile.

Future implications of sending signals across galaxy?.

A stable quantum connection between photons — and the researchers’ ability to bring it into the real world — could lay the foundation for a future where info travels faster & farther than anything we’ve seen before. While we’d still rely on speed of light to send a message or beam across space, quantum entanglement could allow receiving side to get the signal instantly, without waiting millions of years for it to arrive. How long 2 photons can still maintain quantum connection is next for the scientists to work out come soon or later, in their brain & mind.

“U.S. Delivers a Monster”: 60-Foot Superconducting Magnet Sent to France to Power the Heart of the ITER Fusion Reactor.

In a groundbreaking stride toward sustainable energy, the United States has delivered a towering 59-foot superconducting magnet to France's ITER fusion project, marking a pivotal advancement in the quest to harness the power of nuclear fusion.

[Tee tiong huat]

“U.S. Delivers a Monster”: 60-Foot Superconducting Magnet Sent to France to Power the Heart of the ITER Fusion Reactor.

In a groundbreaking stride toward sustainable energy, the United States has delivered a towering 59-foot superconducting magnet to France's ITER fusion project, marking a pivotal advancement in the quest to harness the power of nuclear fusion.

https://www.sustainability-times.com/ene...n-reactor/

[Tee tiong huat]

How?.
https://youtu.be/XigPh6wWSx4?si=MCNF0-8QVSKTO6dj

[Tee tiong huat]

James Webb Space Telescope has identified a galaxy so ancient it reshaping our understanding of tlearly universe. Galaxy, named MoM-z14, holds current record for most distant confirmed galaxy, with a redshift of 14.44, placing it just a few hundred million years after the Big Bang.
What makes MoM-z14 extraordinary isn’t just its distance, its characteristics. Despite being only 500 light-years wide, MoM-z14 unexpectedly bright teeming with newborn stars. Galaxies at this early stage in universe’s history expected to be faint, primitive, and chemically simple.

Yet MoM-z14 is none of these. It lacks a supermassive black hole, a feature typically present in highly active star-forming galaxies, and its light spectrum reveals an unusually high concentration of nitrogen. This chemical richness suggests multiple generations of stars had already lived and died—far earlier than current models predict. These findings challenge long-standing assumptions in cosmology. Galaxies like MoM-z14, once considered rare, are appearing more frequently in JWST’s deep-field surveys. Their abundance, brightness, and complexity suggest that the early universe may have been far more dynamic than previously believed.

As JWST continues its observations, astronomers anticipate uncovering many more such galaxies. Each one offering a glimpse into a formative period of cosmic history, one that may ultimately force us to rethink the fundamental models of galaxy formation itself

[Tee tiong huat]

Deep Space Optical Communications (DSOC) such system NASA project uses laser beams for high-speed data transmission in deep space, offering a significant improvement over traditional radio frequency (RF) communications. It consists of a flight laser transceiver on the Psyche spacecraft, a ground laser transmitter, and a ground laser receiver. And the signal only took 50 seconds to travel the distance. DSOC uses infrared light, about 84,000 mph (135,000 kph). Over time, with no atmospheric drag to slow it down, Psyche will accelerate to speeds of up to 124,000 mph (200,000 kph). Spacecraft Psyche
can arrive at metal-rich asteroid Psyche in 2029 will make observations from orbit for two years.
NASA’s deep space laser test
Here’s what actually happened: NASA successfully sent & received a laser through communication from Psyche as it cruised 460 million kilometers (286 million miles) away from Earth, captured by Hale Telescope at Palomar Observatory in California, it farthest successful laser communication ever performed so far away.

DSOC system aboard Psyche sent the encoded data via infrared laser light, proving laser-based communication is not only possible, but reliable over staggering distances. To grasp the scale of this achievement, picture trying to aim a laser pointer at a moving marble from across the country, you’re also in motion. That’s essentially what NASA’s engineers pulled off. The Psyche spacecraft is constantly moving through the vastness of space, as is Earth. Despite this, DSOC system managed to send a focused infrared laser beam across 460 million kilometers, and it landed squarely on target at the Hale Telescope. And the signal only took 50 seconds to travel the distance. DSOC uses infrared light, much shorter wavelengths than traditional radio waves. This allows it to pack more data into the beam, meaning future space missions could send back high-definition videos, vast scientific data sets, and even real-time messages from the far reaches of the solar system.

https://youtube.com/shorts/7vRjEs78eks?s...xCSgqZkY4g

[Tee tiong huat]

The heart of our Milky Way galaxy is much active than most people would realize. In fact, astronomers discovered two gigantic “bubbles” extending above and below the galactic center, roughly 50,000 light years in each direction. OMG.....
https://www.earth.com/news/two-enormous-...ay-galaxy/

2 enormous "bubbles" discovered towering above & below our Milky Way galaxy. Sao lehh.
https://www.earth.com/news/two-enormous-...ay-galaxy/

[Tee tiong huat]

https://www.ecoportal.net/en/light-telep...e_vignette

China‘s astronomical ambitions have reached new heights with the secretive development of what could become the world‘s largest optical telescope. The 14.5-meter Large Optical Telescope (LOT), currently under construction on the Tibetan Plateau, has left the global scientific community both impressed and concerned about China’s growing dominance in astronomical research

[Tee tiong huat]

Artificial blood created — It’s compatible with every human being...  OMG.

[Tee tiong huat]

Artificial blood created — It’s compatible with every human being...  OMG.

https://youtu.be/SG2v2Y0wsp8?si=8MY_URbYG0IO8rjf

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https://youtu.be/SG2v2Y0wsp8?si=8MY_URbYG0IO8rjf

Sometime's about Blood...that help as to live longer along with some kind of medicine. 

[Tee tiong huat]

https://youtu.be/a3ZCO-N-Xyo?si=Y5SWfetZJI0ngWhp

[Tee tiong huat]

For centuries, humanity has looked to the sky for answers, building theories, writing equations, and imagining our place in a grand cosmic puzzle. But all of that—our physics, our cosmology, our understanding of space and time—has just been shaken to its core. Because what the James Webb Space Telescope has just seen… wasn’t supposed to exist. Galaxies too old. Planets too large. Structures too perfect. And a signal—steady, rhythmic, and unnatural—that doesn’t fit into any known astrophysical model. This isn’t just another discovery. This is a collision between what we believed… and what actually is. The James Webb Telescope may have just delivered the most profound warning—and invitation—in human history. And if it’s real… then everything we thought we knew about the universe is wrong.

[Tee tiong huat]

https://youtu.be/XSp0k7ZliEs?si=fB2WOuqGMUyWqv4y
https://youtu.be/bh1lcn2SPNg?si=OP_YZVelN2JSI6wQ

[Tee tiong huat]

A particle from the farthest reaches of the universe has been detected at the bottom of the Mediterranean Sea.

The deep blue waters of Mediterranean Sea harbor many secrets, but none as extraordinary 

1. as recently detected by scientists. In February 2023, the KM3NeT telescope, located 2,450 meters beneath the sea surface, captured evidence of an ultra-high-energy neutrino – a subatomic particle that traveled across vast cosmic distances be4 reaching Earth
   

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A particle from the farthest reaches of the universe has been detected at the bottom of the Mediterranean Sea.

The deep blue waters of Mediterranean Sea harbor many secrets, but none as extraordinary as recently detected by scientists. In February 2023, the KM3NeT telescope, located 2,450 meters beneath the sea surface, captured evidence of an ultra-high-energy neutrino – a subatomic particle that traveled across vast cosmic distances be4 reaching Earth

What is Ultra-high-energy neutrinos? 

(UHE neutrinos) are subatomic particles with energies greater than 10 petaelectronvolts (PeV), mean a level of energy that allows them to travel vast cosmic distances & potentially reveal info about most energetic events in the universe. Neutrinos are created when ultra-relativistic cosmic rays interact with other particles or photons.


Key aspects of UHE neutrinos: Origin
They are thought to be produced in the same environments that create high-energy cosmic rays & gamma rays, such as active galactic nuclei, gamma-ray bursts, & other extreme cosmic events.

Detection Challenges:
UHE neutrinos are extremely rare and interact weakly with matter, making them difficult to detect.

Importance in Astronomy:
Their ability to travel through space without being significantly deflected or absorbed by interstellar material makes them useful for studying distant astrophysical objects and processes.

Potential to Reveal New Physics:
The study of UHE neutrinos may provide clues about the nature of cosmic rays, new fundamental physics, and the evolution of the universe.