The Einstein–de Haas effect, which links the spin of electrons to macroscopic rotation, has now been demonstrated in a ...

Quantum computers hold the potential to revolutionize the possibilities for solving difficult computational problems that would take classical computers many years to resolve. But for those computers ...

Recent advances in the study of quantum fluids and phase transitions on graphene have opened new avenues for understanding low-dimensional quantum phenomena and harnessing their potential for future ...

Vincent Van Gogh's 136-year-old "The Starry Night" is making rounds on the internet. Apparently, the painting contained a replica of vortices produced during Kelvin-Helmholtz instability inside ...

The Einstein-de Haas effect has been observed in a quantum fluid, showing that changes in magnetization transfer angular momentum from atomic spins to collective motion. (Nanowerk News) In 1915, ...

For more than 50 years, scientists have dreamed of seeing the hidden patterns that govern the motion of nonlinear waves—the unpredictable ripples that shape tsunamis, tides, and turbulent flows. Now, ...

For the first time, scientists have observed electrons in graphene behaving like a nearly perfect quantum fluid, challenging a long-standing puzzle in physics. By creating ultra-clean samples, the ...

Physicists have watched a quantum fluid do something once thought almost impossible: stop moving. In experiments with ultra-thin graphene, researchers observed a superfluid—normally defined by its ...