The simulation of strongly interacting many-body systems is a key objective of quantum physics research, as it can help to ...
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What happens when electrons start to spin?
This experiment reveals patterns and behaviors that are usually invisible, giving a rare glimpse into the quantum world ...
Scientists have created spin waves with record wavelengths, a breakthrough that could lead to faster, more efficient, and ...
When you shine a flashlight into a glass of water, the beam bends. That simple observation, familiar since ancient times, hides one of the oldest puzzles in physics: what really happens to the ...
Black holes are so strange that physicists have long wondered if they are quite what they seem. Now we are set to find out if ...
Researchers have found that 2D materials can self-form microscopic cavities that trap light and electrons, altering their quantum behavior. With a miniaturized terahertz spectroscope, the team ...
TWA is one such semiclassical approach that dates back to the 1970s, but is limited to isolated, idealized quantum systems ...
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Can the frog escape? Quantum study reveals hidden exits for trapped electrons Can the frog escape? Quantum study reveals hidden exits for trapped electrons
A team of researchers from TU Wien has shed new light on the behavior of electrons fleeing a solid material. Their research ...
ASP Isotopes Inc. NASDAQ: ASPI ("ASP Isotopes” or the “Company”), an advanced materials company dedicated to the development ...
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Extreme pressure pushes honeycomb crystal toward quantum spin liquid, hinting at new qubit designs
The future of computing lies in the surprising world of quantum physics, where the rules are much different from the ones that power today's devices. Quantum computers promise to tackle problems too ...
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