A decade after the discovery of the “amplituhedron,” physicists have excavated more of the timeless geometry underlying the ...

Berry used mathematical means to investigate what would happen to the neutron if the direction of the magnetic field changed ...

New superconducting material could pave the way for the next stage in quantum computing by behaving as qubits in a more powerful system, scientists have proposed.

By simulating a magnetic field on a superconducting quantum computer, researchers can explore the intricate properties of ...

For the first time, LBL researchers have captured direct images of the Wigner molecular crystal using scanning tunneling ...

A two-day international conference commemorating the hundred years of Bose-Einstein statistics was curiously labelled as "A ...

As the rivalry between quantum and classical computing intensifies, scientists are making unexpected discoveries about ...

Applications of quantum science could revolutionize the way that humans discover new drug therapies, map the cosmos, protect ...

In physics and chemistry, the many-body problem refers to a large category of problems related to microscopic systems that, being made up of myriads of interacting particles, are difficult to analyze ...

Nov. 6, 2024 — Supersolids are a new form of quantum matter that has only recently been demonstrated. The state of matter can be produced artificially in ultracold, dipolar quantum gases.

For over 100 years now, quantum mechanics has rattled the cage of everything we’ve believed we know about physics. Is everything just made of wiggles and waves if you look close enough?

Whether universal behavior can also emerge in non-equilibrium dynamics, is a cutting-edge question in the field of quantum many-body physics. The main difficulties arise from the strongly ...