To address the challenges, this research introduces a paradigm-shifting method of band engineering by creating an artificial kagome superlattice to manipulate the Dirac bands in graphene.

Theoretical physicist Ziqiang Wang and researcher Kun Jiang, Ph.D. '18, help an international team of colleagues explain new findngs in the kagome magnet Boston College researcher Kun Jiang and ...

The Chinese Academy of Sciences CAS announced the 2024 Outstanding Science and Technology Achievement Prize on Thursday recognizing two scientists ...

Definition: Kagome materials are a unique class of crystalline structures distinguished by their two-dimensional, trihexagonal tiling, which resembles the traditional Japanese basket-weaving pattern ...

The geometry or shape of a quantum system is mathematically expressed by a tool called the quantum geometric tensor (QGT). It also explains how a quantum system’s state changes when we tweak ...

Brad Free stepped into the chief executive role of Kagome Australia on January 1. Photo by Ryan Bellingham The country’s ...

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 ...

Kagome baskets are characterised by a symmetrical pattern of interlaced, corner-sharing triangles; the pattern has preoccupied physicists for decades. Metals resembling a kagome pattern on the ...

Garamaru, a poisonous moth demon, has trapped Kagome and the others in a cocoon. Kagome and the others are each suffering within their nightmares. In real life, Inuyasha is fighting by himself.