EPFL physicists have found a way to measure the time involved in quantum events and found it depends on the symmetry of the material. "The concept of time has troubled philosophers and physicists for ...

Time feels steady and familiar in daily life, but at the quantum level it becomes slippery. That puzzle now has a fresh twist ...

Charge density waves (CDWs) are ordered, crystal-like patterns in the arrangement of electrons that spontaneously form inside ...

Physicists have found a way to measure how long ultra-fast quantum events actually take—without using a clock at all.

Physicists saw excitons, a type of quasiparticle, undergo a reversible phase transition from superfluid to supersolid for the ...

Sterilization Transition Analysis for Manufacturers Facing Looming EtO Regulatory Deadline We’re ready and eager to ...

Tuning electron interactions in iron telluride selenide controls superconducting and topological phases, offering a pathway to more stable quantum computing.

The famed collider at Brookhaven National Laboratory has ended operations, but if all goes to plan, a new collider will rise ...

When materials become just one atom thick, melting no longer follows the familiar rules. Instead of jumping straight from solid to liquid, an unusual in-between state emerges, where atomic positions ...

An array of 15,000 qubits made from phosphorus and silicon offers an unprecedentedly large platform for simulating quantum ...

The study shows that in quantum devices, reading a clock consumes far more energy than running it. This insight will help ...