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Archive for the ‘quantum physics’ category: Page 57

Jun 11, 2024

Novel quantum sensor breaks limits of optical measurement using entanglement

Posted by in categories: electronics, quantum physics

The Korea Research Institute of Standards and Science (KRISS) has developed a novel quantum sensor technology that allows the measurement of perturbations in the infrared region with visible light by leveraging the phenomenon of quantum entanglement. This will enable low-cost, high-performance IR optical measurement, which previously accompanied limitations in delivering quality results.

Jun 10, 2024

The Strange Mystery of Quantum Time

Posted by in category: quantum physics

An exploration of various ways of looking at time and how General Relativity and Quantum Mechanics views it differently and the ultimately question, what exactly is time?

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Jun 10, 2024

‘Quantum optical antennas’ provide more powerful measurements on the atomic level

Posted by in categories: particle physics, quantum physics

Similar to how a radio antenna plucks a broadcast from the air and concentrates the energy into a song, individual atoms can collect and concentrate the energy of light into a strong, localized signal that researchers can use to study the fundamental building blocks of matter.

Jun 10, 2024

LEE LECTURE: WILCZEK, Frank, “My Life With QCD” — 04/09/2024

Posted by in category: quantum physics

FRANK WILCZEK Herman Feshbach Professor of Physics, MIT; Chief Scientist, T. D. Lee Institute and Wilczek Quantum Center, Shanghai Jiao Tong University; Distinguished Professor, Arizona State University; Professor of Physics, Stockholm University; 2004 Nobel Prize in Physics My Life With QCD: A…


David M. Lee Historical Lecture in Physics: FRANK WILCZEKHerman Feshbach Professor of Physics, MIT;Chief Scientist, T. D. Lee Institute and Wilczek Quantum Ce…

Jun 10, 2024

Quantum Theory Unveils Surprising Black Hole Shortage

Posted by in categories: cosmology, quantum physics

Quantum field theory reveals potential flaws in models predicting numerous primordial black holes, suggesting fewer exist, which may impact theories of dark matter and the universe’s structure.

Researchers have applied the well-understood and highly verified quantum field theory, usually applied to the study of the very small, to a new target, the early universe. Their exploration led to the conclusion that there ought to be far fewer miniature black holes than most models suggest, though observations to confirm this should soon be possible. The specific kind of black hole in question could be a contender for dark matter.

The study, which was published recently in Physical Review Letters, was conducted by researchers at the Research Center for the Early Universe (RESCEU) and Kavli Institute for the Physics and Mathematics of the Universe (Kavli IPMU, WPI) at the University of Tokyo.

Jun 9, 2024

The Future of AI and 5G: Scientists Develop the First Universal, Programmable, and Multifunctional Photonic Chip

Posted by in categories: drones, internet, quantum physics, robotics/AI, satellites

Researchers from the Photonics Research Laboratory (PRL)-iTEAM at the Universitat Politècnica de València, in collaboration with iPRONICS, have developed a groundbreaking photonic chip. This chip is the world’s first to be universal, programmable, and multifunctional, making it a significant advancement for the telecommunications industry, data centers, and AI computing infrastructures. It is poised to enhance a variety of applications including 5G communications, quantum computing, data centers, artificial intelligence, satellites, drones, and autonomous vehicles.

The development of this revolutionary chip is the main result of the European project UMWP-Chip, led by researcher José Capmany and funded by an ERC Advanced Grant from the European Research Council. The work has been published in the Nature Communications journal.

Jun 9, 2024

Photons at the Edge of Physics Unlock Gravity’s Quantum Secrets

Posted by in categories: innovation, quantum physics

Principles behind gravity-mediated entanglement were experimentally demonstrated in a simulation using photons, providing new insights into the nature of gravity.

Researchers are making significant progress in the field of quantum gravity, aiming to reconcile Einstein’s theory of gravity with quantum mechanics. Recent experiments demonstrate the principles of gravity-mediated entanglement using photons, a breakthrough in testing theories like string theory and loop quantum gravity. These experiments could transform our understanding of the universe and support future theoretical frameworks.

Quantum Gravity Research Advances

Jun 9, 2024

NV Centre Quantum Sensors: A New Era In Condensed Matter Physics Study

Posted by in categories: nanotechnology, quantum physics

Researchers from Princeton University, University of California Santa Barbara, University of Basel, and ETH Zurich have discovered new applications for nitrogen vacancy (NV) centre quantum sensors in condensed matter physics. These sensors, which offer nanoscale resolution across a wide range of temperatures, have been used to measure static magnetic fields in condensed matter systems.

NV centres can probe beyond average magnetic fields, enabling high precision noise sensing in diverse systems. They offer several advantages over other nanoscale probes, including the ability to probe both static and dynamic properties in a momentum and frequency-resolved way.

Condensed matter physics is a field that studies the physical properties of condensed phases of matter, such as solids and liquids. Recently, researchers from Princeton University, University of California Santa Barbara, University of Basel, and ETH Zurich have discovered new opportunities in this field for nanoscale quantum sensors, specifically nitrogen vacancy (NV) centre quantum sensors. These sensors offer unique advantages in studying condensed matter systems due to their quantitative, noninvasive, physically robust nature, and their ability to offer nanoscale resolution across a wide range of temperatures.

Jun 9, 2024

Quantum computing quantum Monte Carlo with hybrid tensor network for electronic structure calculations

Posted by in categories: computing, quantum physics

Kanno, S., Nakamura, H., Kobayashi, T. et al. npj Quantum Inf 10, 56 (2024). https://doi.org/10.1038/s41534-024-00851-8

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Jun 8, 2024

Nonreciprocal quantum batteries exhibit remarkable capacities and efficiency

Posted by in category: quantum physics

In physics, nonreciprocity occurs when a system’s response varies depending on the direction in which waves or signals are propagating within it. This asymmetry arises from a break in so-called time-reversal symmetry, which essentially means that a system’s processes observed as they evolve over time will be different compared to those processes observed on rewind.

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