A Hiroshima University team has designed a feasible way to detect the Unruh effect, where acceleration turns quantum vacuum ...

Quantum computers will need large numbers of qubits to tackle challenging problems in physics, chemistry, and beyond. Unlike classical bits, qubits can exist in two states at once—a phenomenon called ...

Researchers at the National University of Singapore (NUS) have observed a doping-tunable charge density wave (CDW) in a ...

Some things we see in space appear to outpace light. Now we are learning to harness these bizarre optical illusions to ...

Scientists then defined the “edge” of this gaseous material by introducing a laser, which formed a wall around the atoms. Once atoms encountered this light, they flowed in just one direction—much like ...

Researchers in Vienna have discovered something remarkable: crystals that don’t form in space, like diamonds or salt, but in ...

Physicists from Osaka Metropolitan University and the Korea Advanced Institute of Science and Technology were able to observe ...

Time crystals are physical systems that generate a special kind of order in time. Now scientists in Vienna discovered a new ...

Microscopic turbulence in plasma can trigger macroscopic structural changes. In complex physical systems, such cross-scale ...

Scientists propose that gravitational waves shaped the universe. Their model challenges inflation theory. How exactly did the universe start, and how did these processes determine its formation and ...

Scientists demonstrated the first entangled measurement for W states, a breakthrough for quantum information transfer and ...

The Schwinger effect reveals how vacuum fluctuations can produce real particles under strong electric fields, now explored ...