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The Brighterside of News on MSNPhysicists use 5,564-qubit quantum computer to model the death of our universeNearly 50 years ago, physicists floated a bold idea: our universe might be stuck in a false vacuum. This state feels stable, ...
There may be an infinite amount of energy locked in the vacuum of space-time. So could we ever harness this energy for ...
Angular momentum is a fundamental quantity in physics that describes the rotational motion of objects. In quantum physics, it ...
Computer simulations of high-energy particles are pushing the boundaries of what we can learn about the interactions that happen inside particle colliders ...
Scientists from TU Delft (The Netherlands) have observed quantum spin currents in graphene for the first time without using ...
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Simulating Quantum Fields with Synthetic Magnetism - MSNSimulating Quantum Fields with Synthetic Magnetism. 3mo. ... By employing a parametric coupling scheme, they modulated the on-site energy of qubits at specific detuning frequencies.
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Tech Xplore on MSNLuna v1.0 & FlexQAOA bring constraint-aware quantum optimization to real-world problemsAqarios' platform Luna v1.0 marks a major milestone in quantum optimization. This release significantly improves usability, ...
Energy transmission in quantum field theory requires information. ScienceDaily . Retrieved June 2, 2025 from www.sciencedaily.com / releases / 2024 / 09 / 240913105330.htm ...
Physicists are a step closer to using quantum computers for simulations that are beyond the ability of any ordinary computers ...
The quantum battery (QB) has been proposed as an alternative to the electrochemical energy storage devices we know so well.
If dark energy changes over time, that gives astronomers entirely new theoretical frameworks to explore, from modified theories of gravity to energy fields that naturally evolve throughout cosmic ...
Energy transmission in quantum field theory requires information . Kavli Institute for the Physics and Mathematics of the Universe. Journal Physical Review Letters DOI 10.1103/PhysRevLett.133.091604.
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