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Self-doped Mott insulator for parent compounds of nickelate superconductors
Motivated by analyses of the reported electrical resistivity and Hall coefficient data in the normal state, the authors propose that the parent compound of the newly discovered superconducting
Emergent states in heavy-electron materials
The conditions necessary for the emergence of various low-temperature ordered states in Kondo lattice materials are obtained by extending the two-fluid phenomenological theory of heavy-electron behavior to incorporate the concept of hybridization effectiveness.
Jet momentum dependence of jet quenching in PbPb collisions at sNN=2.76 TeV
Dijet production in PbPb collisions at a nucleon–nucleon center-of-mass energy of 2.76 TeV is studied with the CMS detector at the LHC. A data sample corresponding to an integrated luminosity of 150
Scaling the Kondo lattice
A simple, semi-quantitative solution that provides a basic framework for interpreting the physics of heavy-electron materials and offers the prospect of a quantitative determination of the physical origin of their magnetic ordering and superconductivity is presented.
Recommender engine for continuous-time quantum Monte Carlo methods.
A classical molecular gas model is constructed to reproduce the quantum distributions of quantum Monte Carlo systems and the recommender engine approach provides a general way to speed up the quantum impurity solvers.
Quantum phase transition and destruction of Kondo effect in pressurized SmB6
SmB6 is a promising candidate material that promises to elucidate the connection between strong correlations and topological electronic states, which is a major challenge in condensed matter physics.
Quantum electric-dipole liquid on a triangular lattice
A series of experimental lines of evidence are presented, including dielectric permittivity, heat capacity and thermal conductivity measured down to 66 mK, to reveal the existence of an unusual liquid-like quantum phase in BaFe12O19, characterized by itinerant low-energy excitations with a small gap.
Controlling multiple filaments by relativistic optical vortex beams in plasmas.
It is shown that relativistic OVBs with finite orbital angular momentum (OAM) exhibit much more robust propagation behavior than the standard Gaussian beam, and can maintain their profiles for significantly longer distances in an underdense plasma before filamentation occurs.
Universal linear-temperature resistivity: possible quantum diffusion transport in strongly correlated superconductors
This analysis suggests that the scaling relation in strongly correlated superconductors could be described as a hydrodynamic diffusive transport, with the diffusion coefficient approaching the quantum limit D ~ ħ/m*, where m* is the quasi-particle effective mass.
Distinct pairing symmetries of superconductivity in infinite-layer nickelates
We report theoretical predictions on the pairing symmetry of the newly discovered superconducting nickelate Nd$_{1-x}$Sr$_{x}$NiO$_{2}$ based on the renormalized mean-field theory for a generalized