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Archive for the ‘particle physics’ category: Page 12

Aug 2, 2024

New Microscope Unlocks Hidden Atomic Architecture in Advanced Materials

Posted by in categories: engineering, particle physics

Researchers at the University of Sydney have developed a new microscopy method that uses atom probe tomography to observe atomic-scale changes in materials. This advancement enhances understanding of materials properties and could lead to stronger alloys for aerospace, more efficient semiconductors, and better magnets for motors.

Researchers at the University of Sydney have developed a new microscopy method using atom probe tomography to explore atomic-level changes in materials, promising significant advances in materials science and engineering.

A new microscopy technique enables researchers to observe minute changes in the atomic structure of crystalline materials, such as advanced steels used in shipbuilding and custom silicon for electronics. This method has the potential to enhance our understanding of the fundamental origins of material properties and behavior.

Aug 2, 2024

Physicists report new insights into exotic particles key to magnetism

Posted by in categories: materials, particle physics

MIT physicists and colleagues report new insights into exotic particles key to a form of magnetism that has attracted growing interest because it originates from ultrathin materials only a few atomic layers thick. The work, which could impact future electronics and more, also establishes a new way to study these particles through a powerful instrument at the National Synchrotron Light Source II at Brookhaven National Laboratory.

Aug 2, 2024

Experiment uses quantum techniques to stimulate photons, enhancing search for dark matter

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

Scientists cannot observe dark matter directly, so to “see” it, they look for signals that it has interacted with other matter by creating a visible photon. However, signals from dark matter are incredibly weak. If scientists can make a particle detector more receptive to these signals, they can increase the likelihood of discovery and decrease the time to get there. One way to do this is to stimulate the emission of photons.

Aug 2, 2024

Quantum Computers Need a Quantum Internet: Here’s Why

Posted by in categories: computing, internet, particle physics, quantum physics

Research on quantum internet technology highlights the challenge of producing stable photons at telecom wavelengths, with recent studies focusing on material improvements and advanced emission techniques to enhance quantum network efficiency.

Computers benefit greatly from being connected to the internet, so we might ask: What good is a quantum computer without a quantum internet?

The secret to our modern internet is the ability for data to remain intact while traveling over long distances, and the best way to achieve that is by using photons. Photons are single units (“quanta”) of light. Unlike other quantum particles, photons interact very weakly with their environment. That stability also makes them extremely appealing for carrying quantum information over long distances, a process that requires maintaining a delicate state of entanglement for an extended period of time. Such photons can be generated in a variety of ways. One possible method involves using atomic-scale imperfections (quantum defects) in crystals to generate single photons in a well-defined quantum state.

Aug 1, 2024

Nerve fibres in the brain could generate quantum entanglement

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

Calculations show that nerve fibres in the brain could emit pairs of entangled particles, and this quantum phenomenon might explain how different parts of the brain work together.

By Karmela Padavic-Callaghan

Aug 1, 2024

Study finds black holes made from light are impossible — challenging Einstein’s theory of relativity

Posted by in categories: cosmology, particle physics

New theoretical research finds that it’s impossible to form a black hole with the energy of light particles alone, poking a hole in Einstein’s theory of general relativity.

Aug 1, 2024

Can quantum particles mimic gravitational waves?

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

When two black holes collide, space and time shake and energy spreads out like ripples in a pond. These gravitational waves, predicted by Einstein in 1916, were observed for the first time by the Laser Interferometer Gravitational-Wave Observatory (LIGO) telescope in September 2015.

Aug 1, 2024

Mind-Bending Discovery: Neutrons Defy Classical Physics in Astonishing Experiment

Posted by in categories: particle physics, quantum physics

Is nature really as strange as quantum theory says — or are there simpler explanations? Neutron measurements prove: It doesn’t work without the strange properties of quantum theory.

Quantum theory allows particles to exist in superposition states, defying classical realism. The Leggett-Garg inequality tests this by comparing quantum behavior against classical expectations. Recent neutron beam experiments at TU Wien confirmed that particles do violate this inequality, reinforcing the validity of quantum theory over classical explanations.

Aug 1, 2024

Future chips could swap silicon for a 3-atom-thick crystal semiconductor full of ‘defects’ that pack in more power

Posted by in categories: computing, particle physics

Next generation of computer chips could ditch silicon for TMD — a 2D material that is embedded with ‘defects’ which can be harnessed to improve performance.

Jul 31, 2024

Black holes as particle accelerators: a brief review

Posted by in categories: cosmology, particle physics

Tomohiro harada 1 and masashi kimura 2

Published 28 November 2014 • © 2014 IOP Publishing Ltd.

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