This book presents a comprehensive and coherent account of the theory of quantum fields on a lattice, an essential technique for the study of the strong and the electroweak interactions of elementary ...

"This approach is useful in lattice field theory as it provides an alternative way to simulate quantum field theories on a ...

For decades, physicists have struggled to reconcile the laws governing the very small with those that describe the vast ...

Scientists have achieved an incredible feat—mapping the forces inside a proton with extreme precision, uncovering the immense ...

USTC researchers created a long-lived Schrödinger-cat state, boosting quantum metrology and precision measurements. Their ...

Quantum field theory marries the ideas of other quantum theories to depict all particles as “excitations” that arise in underlying fields. The British physicist Paul Dirac started the ball ...

"We have used a powerful computational technique called lattice quantum chromodynamics to map ... The team's result is possibly the smallest-ever force field map of nature ever generated.

Researchers have explored the interplay between gravitational effects and quantum interactions in optical atomic clocks, revealing more about quantum entanglement in precision timekeeping.

Modern mathematical physics was born from the attempts to gain mathematical understanding of quantum field theory and statistical mechanics ... (SLE), scaling limits of two dimensional critical ...