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Mar 16, 2024

800-mile neutrino beam probes Earth in DUNE experiment

Posted by in categories: cosmology, particle physics

Scientists are eager to tackle perplexing questions using DUNE, such as the mystery of why the universe is made of matter and how black holes arise from exploding stars.

Moreover, they want to understand the potential connections between neutrinos, dark matter, and other yet-to-be-discovered particles.

These caverns will soon be home to four large neutrino detectors, each the size of a seven-story building.

Mar 16, 2024

Dark matter doesn’t exist and the universe is 27 billion years old • Earth

Posted by in category: cosmology

The fabric of the cosmos, as we currently understand it, comprises three primary components: ‘normal matter,’ ‘dark energy,’ and ‘dark matter.’ However, new research is turning this established model on its head.

A recent study conducted by the University of Ottawa presents compelling evidence that challenges the traditional model of the universe, suggesting that there may not be a place for dark matter within it.

Dark matter, a term used in cosmology, refers to the elusive substance that does not interact with light or electromagnetic fields and is only identifiable through its gravitational effects.

Mar 16, 2024

“This Universe Existed before The Big Bang” ft. Roger Penrose

Posted by in category: cosmology

Let’s unravel the mysteries surrounding (our) Big Bang. Was it truly the beginning of everything? ♾️🔍

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Mar 15, 2024

New research suggests that our universe has no dark matter

Posted by in category: cosmology

The current theoretical model for the composition of the universe is that it’s made of normal matter, dark energy and dark matter. A new University of Ottawa study challenges this.

Mar 15, 2024

Do black holes explode? The 50-year-old puzzle that challenges quantum physics

Posted by in categories: cosmology, particle physics, quantum physics

In hindsight, it seems prophetic that the title of a Nature paper published on 1 March 1974 ended with a question mark: “Black hole explosions?” Stephen Hawking’s landmark idea about what is now known as Hawking radiation1 has just turned 50. The more physicists have tried to test his theory over the past half-century, the more questions have been raised — with profound consequences for how we view the workings of reality.

In essence, what Hawking, who died six years ago today, found is that black holes should not be truly black, because they constantly radiate a tiny amount of heat. That conclusion came from basic principles of quantum physics, which imply that even empty space is a far-from-uneventful place. Instead, space is filled with roiling quantum fields in which pairs of ‘virtual’ particles incessantly pop out of nowhere and, under normal conditions, annihilate each other almost instantaneously.

However, at an event horizon, the spherical surface that defines the boundary of a black hole, something different happens. An event horizon represents a gravitational point of no return that can be crossed only inward, and Hawking realized that there two virtual particles can become separated. One of them falls into the black hole, while the other radiates away, carrying some of the energy with it. As a result, the black hole loses a tiny bit of mass and shrinks — and shines.

Mar 13, 2024

Deciphering the Dark: The Accelerating Universe and the Quest for Dark Energy

Posted by in categories: cosmology, physics

Dark energy’s role in propelling the universe’s accelerated expansion presents a pivotal challenge in astrophysics, driving ongoing research and space missions dedicated to uncovering the nature of this mysterious force.

Some 13.8 billion years ago, the universe began with a rapid expansion we call the Big Bang. After this initial expansion, which lasted a fraction of a second, gravity started to slow the universe down. But the cosmos wouldn’t stay this way. Nine billion years after the universe began, its expansion started to speed up, driven by an unknown force that scientists have named dark energy.

But what exactly is dark energy?

Mar 12, 2024

JWST Unveils the Earliest Galaxy Merger: Insights into Rapid Star Formation

Posted by in categories: cosmology, evolution

How fast did the first galaxies and stars form after the Big Bang? This is what a recent study published in Nature Astronomy hopes to address as an international team of scientists led by the University of Melbourne used NASA’s James Webb Space Telescope (JWST) to observe the merger of two galaxies that occurred approximately 510 million years after the Big Bang, or approximately 13 billion years ago. This study holds the potential to help astronomers better understand the processes behind galaxy formation and evolution during the universe’s youth.

“It is amazing to see the power of JWST to provide a detailed view of galaxies at the edge of the observable Universe and therefore back in time” said Dr. Michele Trenti, who is a Professor and Cosmologist in the School of Physics at the University of Melbourne and a co-author on the study. “This space observatory is transforming our understanding of early galaxy formation.”

For the study, the researchers used JWST’s powerful infrared instruments to observe what they hypothesize to be two merging galaxies comprised of a primary clump and a long tail with a mass equivalent to approximately 1.6 × 109 masses of our Sun that contains approximately 10 percent of the metals of our Sun and growing by approximately 19 solar masses per year. Additionally, they estimate the stars within these merging galaxies are less than 10 million years old within the main clump of the merger and stars in the outer regions to be approximately 120 million years old.

Mar 11, 2024

The Indian Ocean Has the World’s Largest Gravity ‘Black Hole’ and It’s Finally Explained

Posted by in category: cosmology

Due to the world’s largest gravity hole, the sea level in a large part of the Indian Ocean is up to 106 m (348 ft) lower than the rest of the world. We have just understood what causes this huge ‘black hole.’

If you look at a map of Earth’s gravity, you will see a huge blue spot south of India, indicating a region where gravity is weaker than average. This spot is called the Indian Ocean Geoid Low (IOGL), and it is the largest gravity anomaly on our planet.

A gravity anomaly is a difference between the actual gravity measured at a location and the theoretical gravity expected for a perfectly smooth and spherical Earth. But Earth’s gravity isn’t perfectly uniform and variations in mass distribution beneath the surface cause fluctuations in gravitational pull.

Mar 10, 2024

Scientists detect ultralow gravitational waves in pulsar data

Posted by in categories: cosmology, physics

Physicists debut a new method to detect gravitational waves with unprecedented precision, providing insights into black hole mergers.

Mar 10, 2024

Fresh X-Rays Reveal a Universe as Clumpy as Cosmology Predicts

Posted by in categories: cosmology, mapping

A recent study of thousands of galaxy clusters may ease a debate about the clumpiness of cosmic matter and reinforce the standard model of cosmology.


By mapping the largest structures in the universe in X-rays, cosmologists have found striking agreement with their standard theoretical model of how the universe evolves.

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