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Archive for the ‘particle physics’ category: Page 86

Mar 21, 2024

Pushing the limit of the periodic table with superheavy elements

Posted by in categories: chemistry, particle physics

Scientists from Massey University in New Zealand, the University of Mainz in Germany, Sorbonne University in France, and the Facility for Rare Isotope Beams (FRIB) discuss the limit of the periodic table and revising the concept of the “island of stability” with recent advances in superheavy element research. Their work first appeared in Nature Reviews Physics.

In addition to the Nature Reviews Physics, Physics Reports has published a review on the atomic electronic structure theory for superheavy elements.

What is the heaviest bound nucleus and the heaviest bound atom and what are their properties? The nuclei of chemical elements with more than 103 protons are labeled as “superheavy.” They are part of a vast unknown territory of these nuclei that scientists are trying to uncover. Exploring this uncharted territory provides prospects for discoveries that connect the broad areas of science.

Mar 21, 2024

Researchers discover tightest arrangement of bilayer alkali metals between graphene layers

Posted by in categories: materials, particle physics

For the past hundred years, it has been widely recognized through X-ray and electron diffraction measurements that graphene interlayers can only accommodate a single layer of alkali metal. Each layer being fully filled by single layer alkali metal atoms is considered the theoretical charging limit.

However, there have been no reports of studies directly observing the atomic arrangement of interlayer alkali metals and verifying whether graphene layers can only accommodate a single layer of alkali metal atoms or whether other techniques can achieve higher density or multiple layers of alkali metals.

The research team developed a technique to insert dense alkali metals between graphene layers. Utilizing a high-performance low-voltage (60 kV) , they have successfully observed the arrangement structure of alkali metal atoms between the graphene layers. The alkali metals are found densely packed in a two-layer structure in both bilayer graphene and in the surface layer graphite due to the flexible extension ability of their interlayer spacing.

Mar 21, 2024

Benchmarking highly entangled states on a 60-atom analogue quantum simulator

Posted by in categories: particle physics, quantum physics

Fidelity benchmarking of an analogue quantum simulator reaches a high-entanglement regime where exact classical simulation of quantum systems becomes impractical, and enables a new method for evaluating the mixed-state entanglement of quantum devices.

Mar 21, 2024

Black Holes May Be Portal To Another Universe, Stephen Hawking Explains

Posted by in categories: cosmology, law enforcement, particle physics

Scientists have referred to black holes as cosmic objects that consume whatever comes into them but do not allow anything to escape from the inside. Stephen Hawking assumes that a black hole could be a portal to another universe. While addressing about 1,000 people at Harvard in 2015, Hawkings analyzed the groundbreaking theory with these words.

“Blackholes aren’t the eternal prisons they were once thought. Things can get out of a black hole, both from the outside and possibly through another universe. So, if you ever feel you’re in a black hole, don’t give up. There’s a way out.”

Scientists listening to the renowned astrophysicist were fascinated with his explanations. Keep in mind that Stephen Hawkings came up with Hawking’s radiation theory which revolutionized our understanding of black holes. According to this theory, Black holes thermally generate and emit subatomic particles until they lose their energy and proceed to evaporate. Based on this theory, Hawkings says that black holes are not entirely black and they don’t last for eternity.

Mar 20, 2024

CERN measures coupled resonance structure that may cause particle loss in accelerators for the first time

Posted by in categories: media & arts, particle physics

Whether in listening to music or pushing a swing in the playground, we are all familiar with resonances and how they amplify an effect—a sound or a movement, for example. However, in high-intensity circular particle accelerators, resonances can be an inconvenience, causing particles to fly off their course and resulting in beam loss. Predicting how resonances and non-linear phenomena affect particle beams requires some very complex dynamics to be disentangled.

Mar 20, 2024

Diamond Can Be Squeezed Into Something Even Harder. Now We Know How to Do It

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

Simulations of an elusive carbon molecule that leaves diamonds in the dust for hardness may pave the way to creating it in a lab.

Known as the eight-atom body-centered cubic (BC8) phase, the configuration is expected to be up to 30 percent more resistant to compression than diamond – the hardest known stable material on Earth.

Physicists from the US and Sweden ran quantum-accurate molecular-dynamics simulations on a supercomputer to see how diamond behaved under high pressure when temperatures rose to levels that ought to make it unstable, revealing new clues on the conditions that could push the carbon atoms in diamond into the unusual structure.

Mar 20, 2024

Supercomputers Crack the Code of Super-Diamond Synthesis

Posted by in categories: particle physics, space, supercomputing

Researchers are on a quest to synthesize BC8, a carbon structure predicted to be tougher than diamond, using insights from advanced simulations and experimental efforts. This material, theoretically prevalent in the extreme pressures of exoplanets, remains a scientific mystery with promising applications in materials science.

Diamond is the strongest material known. However, another form of carbon has been predicted to be even tougher than diamond. The challenge is how to create it on Earth.

The eight-atom body-centered cubic (BC8) crystal is a distinct carbon phase: not diamond, but very similar. BC8 is predicted to be a stronger material, exhibiting a 30% greater resistance to compression than diamond. It is believed to be found in the center of carbon-rich exoplanets. If BC8 could be recovered under ambient conditions, it could be classified as a super-diamond.

Mar 19, 2024

‘Sound laser’ is the most powerful ever made

Posted by in category: particle physics

A new device uses a reflective cavity, a tiny bead and an electrode to create a laser beam of sound particles ten times more powerful and much narrower than other “phonon lasers”

Mar 19, 2024

Cracking the quantum code: Simulations track entangled quarks

Posted by in categories: particle physics, quantum physics

Today, the word “quantum” is everywhere—in company names, movie titles, even theaters. But at its core, the concept of a quantum—the tiniest, discrete amount of something—was first developed to explain the behavior of the smallest bits of matter and energy.

Mar 19, 2024

Secrets of Quantum Physics, “Einstein’s Nightmare” 4k

Posted by in categories: particle physics, quantum physics

Quantum physics starts with the 20th century as scientists try to understand light bulbs. This simple quest led scientists on a deep journey.

Professor Jim Al-Khalili reveals how Einstein thought he’d found a fatal flaw in quantum physics that implies that subatomic particles can communicate faster than light. The host of \.

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