Boston College physicists have discovered a complex landscape of electronic states that can co-exist on a kagome lattice, resembling those in high-temperature superconductors, they reported this fall ...

The kagome ferromagnet showed a shift approximately 150 times larger than ordinary materials. Probing the interference patterns of the electron’s quantum mechanical wave functions revealed consistent ...

MIIT Key Laboratory for Low-Dimensional Quantum Structure and Devices & School of Integrated Circuits and Electronics, Beijing Institute of Technology, Beijing 100081, China ...

afterglow is a Clojure live-coding environment for creating and running light shows with DMX and ArtNet fixtures. It led to… dysentery, another Clojure project for exploring how to integrate ...

The study zeroed in on the kagome lattice FeGe, known for giving rise to an unusual electronic pattern called a CDW below 100 degrees Kelvin. The structure in FeGe presented a puzzling behavior ...

In conventional superconductors, electron pairs (i.e., Cooper pairs) form due to phonon-mediated interactions, resulting in a superconducting gap that follows an isotropic s-wave symmetry.

This suggested that the so-called "isospin symmetry" between up and down quarks might be broken by more than expected due to the differences in their electric charges and masses—a discrepancy ...

following the lattice symmetry. In recent years, an exotic superconducting state with the finite momentum Cooper pairing known as the pair density wave (PDW) state, which breaks the translational ...