In traditional metals, the temperature (T) dependence of electrical resistivity vanishes at low
or high T, albeit for different reasons. Here, we review a class of materials, known as …

While the recent advances in topology have led to a classification scheme for electronic
bands described by the standard theory of metals, a similar scheme has not emerged for …

We present a critical review of recent attempts to introduce a new quantum ('Planckian') limit
for the temperature dependence of the inelastic scattering rate of electrons in metals. We …

Cavity control of quantum matter may offer new ways to study and manipulate many-body
systems. A particularly appealing idea is to use cavities to enhance superconductivity …

It has recently been conjectured that the transport relaxation rate in metals is bounded
above by the temperature of the system. In this paper, we discuss the transport …

We calculate the theoretical contribution to the doping and temperature (T) dependence of
electrical resistivity due to scattering by acoustic phonons in Bernal bilayer graphene (BBG) …

We theoretically consider the possibility that phonons may be playing a role in the observed
linear-in-T resistivity in cuprates by focusing on the obvious question: How can phonon …

Charge transport in metals and semiconductors is often dominated by electron‐impurity and
electron–phonon scattering. Coulomb effects could be found in small corrections to the …

Efforts to understand metallic behavior have led to important concepts such as those of
strange metals, bad metals, or Planckian metals. However, a unified description of metallic …

We performed systematic angle-resolved photoemission spectroscopy measurements in situ
on T′-La 2− x Ce x Cu O 4±δ (LCCO) thin films over the extended doping range prepared …