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Fusion Power, Engineering with a Side of Liberal Arts, Nanocrystal Networks for Artificial Intelligence, and More in the Engineering News Source

The latest research and features in the Newswise Engineering News Source

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Eclipse, Weather and Forecasting, NASA

SLU, Ameren Missouri to Provide Research Data for NASA from Solar Eclipse Monday, Aug. 21

Ameren Missouri and Saint Louis University are partners on an innovative weather forecasting system called Quantum Weather that provides detailed severe weather information to improve energy restoration for customers during storms.

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University of Vienna, Markus Arndt, University of Tel Aviv, Science Advances, massive particles, Quantum Theory, interference experiments, Waves

Massive Particles Test Standard Quantum Theory

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In quantum mechanics particles can behave as waves and take many paths through an experiment, even when a classical marble could only take one of them at any time. However, it requires only combinations of pairs of paths, rather than three or more, to determine the probability for a particle to arrive somewhere. This principle is a consequence of Born’s rule, a cornerstone of quantum physics and any measured violation of it might hint at new physics. Now, researchers at the Universities of Vienna and Tel Aviv have addressed this question for the first time explicitly using the wave interference of large molecules behind various combinations of single, double, and triple slits. The analysis – published in the Journal ‘Science Advances’ – confirms the formalism of established quantum physics for massive particles.

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Quantum, quantum encryption, Quantum Key Distribution, network security, Cryptography, Utilities, Quantum Computing, cyber attacks, Photons, Particles

Qubitekk Licenses ORNL Single-Photon Source Approach for Quantum Encryption

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Qubitekk has non-exclusively licensed an Oak Ridge National Laboratory-developed method to produce quantum light particles, known as photons, in a controlled, deterministic manner that promises improved speed and security when sharing encrypted data.

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Tulane Univeristy, quantum materials, Physics, topological, Electronics

Tulane Team Advances Knowledge Toward More Efficient Electronics

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A recent discovery of a new magnetic semimetal could eventually lead to more energy-efficient computers, televisions, radios and other electronics.

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Basic Energy Sciences, Basic Energy Research, user facilities, user facility, Center for Functional Nanomaterials, BNL, Computing, Brookhaven Nat'l Laboratory, Brookhaven National Laboratory, Massachusetts Institute Of Technology, MIT, Nano Letters, Diamond, Diamonds, nitrogen vacancy center, Nitrogen, quantum spin, Quantum Computer, Quantum Computers, compu

Quantum Computing Building Blocks

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Scientists invented an approach to creating ordered patterns of nitrogen-vacancy centers in diamonds, a promising approach to storing and computing quantum data.

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Chemistry, Computing, Quantum Computing, Physics

Simulation Reveals Universal Signature of Chaos in Ultracold Reactions

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Researchers have performed the first ever quantum-mechanical simulation of the benchmark ultracold chemical reaction between potassium-rubidium and a potassium atom, opening the door to new controlled chemistry experiments.

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High-Energy Shock Waves, Plasma Behavior, Algae Production, and More in the DOE Science News Source

Click here to go directly to the DOE Science News Source

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optomechanical cooling, Quantum Mechanics

Physicists Gain New Understanding of Quantum Cooling Process

University of Arkansas physicists define new limits in optomechanical cooling to better help understand the quantum state

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@CWRU Associate Professor Jesse Berezovsky Is Available to Comment on Ground-to-Satellite Teleportation

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