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Archive for the ‘cosmology’ category: Page 42

Jul 4, 2024

Searching for dark matter with the coldest quantum detectors in the world

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

One of the greatest mysteries of science could be one step closer to being solved. Approximately 80% of the matter in the universe is dark, meaning that it cannot be seen. In fact, dark matter is passing through us constantly—possibly at a rate of trillions of particles per second.

We know it exists because we can see the effects of its gravity, but experiments to date have so far failed to detect it.

Taking advantage of the most advanced quantum technologies, scientists from Lancaster University, the University of Oxford, and Royal Holloway, University of London are building the most sensitive dark matter detectors to date.

Jul 4, 2024

Dogged Dark Matter Hunters Find New Hiding Places to Check

Posted by in categories: cosmology, particle physics

Perhaps dark matter is made of an entirely different kind of particle than the ones physicists have been searching for. New experiments are springing up to look for these ultra-lightweight phantoms.

Jul 4, 2024

Earth’s upper atmosphere could hold a missing piece of the universe, new study hints

Posted by in category: cosmology

Mysterious dark matter could slosh over our planet like a wave. If it does, it may produce telltale radio waves in Earth’s atmosphere, new theoretical research suggests.

Jul 3, 2024

Ultra-Precise Atomic Clock Doubles Previous Accuracy, Could Detect Dark Matter

Posted by in categories: cosmology, particle physics

Time: It bends and warps, or seems to speed up or slow down, depending on your position or perception. So measuring its passing accurately is one of the most fundamental tasks in physics – which could help land us on Mars or even observe dark matter.

Now, physicists at the US National Institute of Standards and Technology (NIST) and the University of Delaware have developed the most accurate and precise atomic clock yet, using a ‘web’ of light to trap and excite a diffuse cloud of cold strontium atoms.

“This clock is so precise that it can detect tiny effects predicted by theories such as general relativity, even at the microscopic scale,” says Jun Ye, a physicist at the NIST’s Joint Institute for Laboratory Astrophysics (JILA) lab at the University of Colorado. “It’s pushing the boundaries of what’s possible with timekeeping.”

Jul 3, 2024

New Experiment To “Trap” Dark Matter Could Unravel Mysteries of the Universe

Posted by in categories: cosmology, particle physics

Scientists have devised a 3D-printed vacuum system to detect dark matter and explore dark energy, using ultra-cold lithium atoms to identify domain walls and potentially explain the universe’s accelerating expansion.

Scientists have developed a novel 3D-printed vacuum system designed to ‘trap’ dark matter, aiming to detect domain walls. This advancement represents a significant step forward in deciphering the mysteries of the universe.

Scientists from the University of Nottingham’s School of Physics have created a 3D-printed vacuum system that they will use in a new experiment to reduce the density of gas, then and add in ultra-cold lithium atoms to try to detect dark walls. The research has been published in the scientific journal Physical Review D.

Jul 2, 2024

Black holes are common. So where are the white holes?

Posted by in category: cosmology

In General Relativity, white holes are just as mathematically plausible as black holes. Black holes are real; what about white holes?

Jul 2, 2024

Infrared glow high in Jupiter’s atmosphere may be dark matter particles colliding

Posted by in categories: cosmology, particle physics

A pair of astrophysicists with Princeton University and the SLAC National Accelerator Laboratory found possible evidence of dark matter particles colliding. In their study, published in Physical Review Letters, Carlos Blanco and Rebecca Leane conducted measurements of Jupiter’s equatorial region at night to minimize auroral influences.

Since it was first proposed back in the 1930s, dark matter has been at the forefront of physics research, though it has yet to be directly detected. Still, most in the field believe it makes up roughly 70% to 80% of all matter in the universe. It is believed to exist because it is the only explanation for odd gravitational effects observed in galaxy motion and the movement of stars.

Researchers posit that it might be possible to detect dark matter indirectly by identifying the heat or light emitted when particles of dark matter collide and destroy each other. In this new study, the researchers found what they believe may be such an instance—light in Jupiter’s dark-side .

Jun 30, 2024

What happened in Big Bang — new theory, new state of matter

Posted by in categories: computing, cosmology, physics

Physicists have proposed a new theory: in the first quintillionth of a second, the universe may have sprouted microscopic black holes with enormous amounts of nuclear charge.

For every kilogram of matter that we can see — from the computer on your desk to distant stars and galaxies — there are 5kgs of invisible matter that suffuse our surroundings. This “dark matter” is a mysterious entity that evades all forms of direct observation yet makes its presence felt through its invisible pull on visible objects.

Continue reading “What happened in Big Bang — new theory, new state of matter” »

Jun 29, 2024

Beyond the Standard Model: New Spin-Spin-Velocity Experiments Could Rewrite Physics Textbooks

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

A research team led by Academician Du Jiangfeng and Professor Rong Xing from the University of Science and Technology of China (USTC), part of the Chinese Academy of Sciences (CAS), in collaboration with Professor Jiao Man from Zhejiang University, has used solid-state spin quantum sensors to examine exotic spin-spin-velocity-dependent interactions (SSIVDs) at short force ranges. Their study reports new experimental findings concerning interactions between electron spins and has been published in Physical Review Letters.

The Standard Model is a very successful theoretical framework in particle physics, describing fundamental particles and four basic interactions. However, the Standard Model still cannot explain some important observational facts in current cosmology, such as dark matter and dark energy.

Some theories suggest that new particles can act as propagators, transmitting new interactions between Standard Model particles. At present, there is a lack of experimental research on new interactions related to velocity between spins, especially in the relatively small range of force distance, where experimental verification is almost non-existent.

Jun 29, 2024

Beyond Gravity: UC Berkeley’s Quantum Leap in Dark Energy Research

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

Nice!


Researchers at UC Berkeley have enhanced the precision of gravity experiments using an atom interferometer combined with an optical lattice, significantly extending the time atoms can be held in free fall. Despite not yet finding deviations from Newton’s gravity, these advancements could potentially reveal new quantum aspects of gravity and test theories about exotic particles like chameleons or symmetrons.

Twenty-six years ago physicists discovered dark energy — a mysterious force pushing the universe apart at an ever-increasing rate. Ever since, scientists have been searching for a new and exotic particle causing the expansion.

Continue reading “Beyond Gravity: UC Berkeley’s Quantum Leap in Dark Energy Research” »

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