“The optical clock community is strongly motivated to obtain the best possible set of measurements before the SI second is ...

A new X-ray-based method reveals how glasses yield upon irradiation, offering insights into their structural resilience and ...

This study demonstrates how integrating decoherence-free subspaces with dynamic decoupling enhances quantum state fidelity, ...

Supersymmetry in twisted bilayers of transition metal dichalcogenides reveals energy bands with both trivial and non-trivial ...

Scientists from the CMS collaboration at CERN have measured the speed of sound in the quark-gluon plasmas with record ...

A team led by researchers from the Norwegian University of Science and Technology have found a new method to separate right- ...

Ekaterina Shanina, a PhD student at the University of California, Davis, has won the Physics in Medicine & Biology Early ...

A new quantum repeater protocol based on post-matching offers improved entanglement generation and robustness, bridging advances in quantum communication and cryptography ...

By making electrons behave as waves, a collaboration of researchers from Israel and China has produced light with quantum effects, a necessary step towards controlling quantum computers ...

Researchers demonstrate a novel method for transforming continuous time crystals into discrete ones using subharmonic injection locking, offering new insights into symmetry breaking and control in exo ...

This study introduces a chiral two-mode Lipkin-Meshkov-Glick model using acoustic cavities, enabling the simulation of exotic quantum phenomena like time crystals and long-range spin interactions on a ...

This work demonstrates a novel method for continuously tuning single-photon nonlinearity using engineered Rydberg states, paving the way for more controllable and scalable quantum technologies ...