Researchers have experimentally recreated another fundamental theoretical model from quantum physics, which goes back to the Nobel Prize laureate Werner Heisenberg. The basis for the successful ...

For decades, scientists believed that lead-208, a "doubly magic" and highly stable atomic nucleus, was perfectly spherical.

The research, published in Nature Physics, focuses on using quantum dots—tiny semiconductor particles that trap single electrons and use their "spin" to store information—to create a nuclear ...

Two experiment collaborations, the g2p and EG4 collaborations, combined their complementary data on the proton's inner ...

"We thought silicon would provide us with a more controllable platform in which to study central-spin physics." Typically, the nuclear spins in semiconductors interact with electron spins via the ...

They were in fact interested in observing quantum chaos in a single nuclear spin, which had been an experimental ... and this is our first big result in that context,” he tells Physics World. The main ...

nuclear physics; high energy physics; and quantum information science. My research interests are thermodynamics and statistical mechanics of condensed matter systems, phase transitions and critical ...

Simulations of quantum many-body problems are a challenge for even the most powerful conventional computers. Quantum ...

Two sides: An atomic model of the Janus graphene nanoribbons (left ... “We will also be exploring the 1D spin physics of these structures and [will] investigate their spin dynamics using techniques ...

Two experiment collaborations, the g2p and EG4 collaborations, combined their complementary data on the proton’s inner ...

Scientists demonstrate for the second time that theoretical models of quantum physics can be realized with nanographenes, ...