New optical centrifuge unlocks the secrets of frictionless superfluids
1d ago
Source
ScienceDailyNew optical centrifuge unlocks the secrets of frictionless superfluidssciencedaily.comPhysicists have developed a new optical centrifuge that can precisely spin molecules inside a superfluid for the first time. The advance could help unravel some of the biggest mysteries of quantum liquids and reveal how superfluidity breaks down at the atomic scale.
You might also wanna read
Stanford researchers develop room-temperature quantum device using twisted light
Stanford University researchers have developed a nanoscale optical device that operates at room temperature using twisted light to entangle
sciencedaily.com·1mo ago
Experiments suggest a permanent quantum state may be achievable, unlocking new forms of matter
This article discusses emerging experimental evidence suggesting that a quantum state frozen in time—defying the laws of thermodynamics—may
University of East Anglia Researchers Discover Light Can Develop Hidden Chirality in Empty Space
Researchers at the University of East Anglia have discovered that light can naturally develop a hidden "handedness" (chirality) as it travel
scitechdaily.com·25d ago

Optical writing of antiferromagnets points toward new storage devices and energy efficient information systems
Phys·16h ago
230 calcium monohydride molecules were trapped below 1 millikelvin, showing a metal hydride can be laser cooled in a 3D magneto-optical trap and pointing toward ultracold hydrogen. @physrevlett @arxiv
phys.org·8d ago
Exploring Quantum Brain Dynamics: Super-Radiance with Light and Sound Waves in Microtubules
The article discusses the derivation of super-radiance solutions involving coherent light and sound waves within the environment of a microt

Comments
Sign in to join the conversation.
No comments yet. Be the first.