Complex oxides with 4 d and 5 d transition-metal ions recently emerged as a new paradigm
in correlated electron physics, due to the interplay between spin–orbit coupling and electron …

Magnetic Weyl semimetals have novel transport phenomena related to pairs of Weyl nodes
in the band structure. Although the existence of Weyl fermions is expected in various oxides …

Materials design based on density functional theory (DFT) calculations is an emergent field
of great potential to accelerate the development and employment of novel materials …

The in-plane (thermal) Hall effect is an unconventional transverse response when the
applied magnetic field is in the (heat) current plane. In contrast to the normal Hall effect, the …

Quantum materials (QMs) with strong correlation and nontrivial topology are indispensable
to next-generation information and computing technologies. Exploitation of topological band …

Interface quantum materials have yielded a plethora of previously unknown phenomena,
including unconventional superconductivity, topological phases, and possible Majorana …

We report a comprehensive investigation of the structural, magnetic, transport, and
thermodynamic properties of single crystal PrAlSi, in comparison to its nonmagnetic analog …

In nodal-line semimetals, linearly dispersing states form Dirac loops in the reciprocal space
with a high degree of electron-hole symmetry and a reduced density of states near the Fermi …

Many topological semimetals are known to exhibit exceptional electronic properties, which
are the fundamental basis for design of novel devices and further applications. Materials …

An extremely large linear magnetoresistance (LMR) is a ubiquitous phenomenon emerging
from topological Dirac and Weyl semimetals. However, the connection between an LMR and …