The relation between thermal transport and gravity was highlighted in the seminal work by
Luttinger in 1964, and has been extensively developed to understand thermal transport …

Dirac and Weyl semimetals react to position-dependent and time-dependent perturbations,
such as strain, as if subject to emergent electromagnetic fields, known as pseudo-fields …

Condensed-matter and other engineered systems, such as cold atoms, photonic or
phononic metamaterials, have proved to be versatile platforms for the observation of low …

The Weyl orbit refers to a new type of cyclotron orbit recently proposed in Weyl semimetals.
This is a surface–bulk hybrid orbit that can be modulated by thickness and external fields …

Graphene is a powerful playground for studying a plethora of quantum phenomena. One of
the remarkable properties of graphene arises when it is strained in particular geometries …

The planar Hall effect (PHE), the appearance of an in-plane transverse voltage in the
presence of coplanar electric and magnetic fields, has been ascribed to the chiral anomaly …

We argue that the correct definition of the electric current in the chiral kinetic theory for Weyl
materials should include the Chern-Simons contribution that makes the theory consistent …

Recent theoretical and experimental attempts have been successful in finding magnetic
Weyl semimetal phases, which show nodal‐point structure in the electronic bands as well as …

Multi-Weyl semimetals are a kind of topological phase of matter with discrete Weyl nodes
characterized by multiple monopole charges, in which the chiral anomaly, the anomalous …

We derive electronic tight-binding Hamiltonians for strained graphene, hexagonal boron
nitride, and transition-metal dichalcogenides based on Wannier transformation of ab initio …