Hidden order and beyond: an experimental—theoretical overview of the multifaceted behavior of URu2Si2
JA Mydosh, PM Oppeneer… - Journal of Physics …, 2020 - iopscience.iop.org
This topical review describes the multitude of unconventional behaviors in the hidden order,
heavy fermion, antiferromagnetic and superconducting phases of the intermetallic …
heavy fermion, antiferromagnetic and superconducting phases of the intermetallic …
Hidden order behaviour in URu2Si2 (A critical review of the status of hidden order in 2014)
JA Mydosh, PM Oppeneer - Philosophical Magazine, 2014 - Taylor & Francis
Throughout the past three decades, the hidden order (HO) problem in URu2Si2 has
remained a 'hot topic'in the physics of strongly correlated electron systems with well over …
remained a 'hot topic'in the physics of strongly correlated electron systems with well over …
Incommensurate Spin Fluctuations in the Spin-Triplet Superconductor Candidate
Spin-triplet superconductors are of extensive current interest because they can host
topological state and Majorana fermions important for quantum computation. The uranium …
topological state and Majorana fermions important for quantum computation. The uranium …
Low Energy Band Structure and Symmetries of from Angle-Resolved Photoemission Spectroscopy
The compound UTe 2 has recently been shown to realize spin triplet superconductivity from
a nonmagnetic normal state. This has sparked intense research activity, including theoretical …
a nonmagnetic normal state. This has sparked intense research activity, including theoretical …
From antiferromagnetic and hidden order to Pauli paramagnetism in UM2Si2 compounds with 5f electron duality
A Amorese, M Sundermann… - Proceedings of the …, 2020 - National Acad Sciences
Using inelastic X-ray scattering beyond the dipole limit and hard X-ray photoelectron
spectroscopy we establish the dual nature of the U 5 f electrons in UM 2 S i 2 (M= Pd, Ni, Ru …
spectroscopy we establish the dual nature of the U 5 f electrons in UM 2 S i 2 (M= Pd, Ni, Ru …
First-principles theory of magnetic multipoles in condensed matter systems
MT Suzuki, H Ikeda, PM Oppeneer - … of the Physical Society of Japan, 2018 - journals.jps.jp
The multipole concept, which characterizes the spacial distribution of scalar and vector
objects by their angular dependence, has already become widely used in various areas of …
objects by their angular dependence, has already become widely used in various areas of …
Exploring possible Fermi surface nesting and the nature of heavy quasiparticles in the spin-triplet superconductor candidate
B Chen, H Liu, QY Wu, C Zhang, XQ Ye, YZ Zhao… - Physical Review B, 2024 - APS
In this Letter, we investigate the electronic structure of a spin-triplet superconductor
candidate CeRh 2 As 2 using high-resolution angle-resolved photoemission spectroscopy …
candidate CeRh 2 As 2 using high-resolution angle-resolved photoemission spectroscopy …
Direct observation of lattice symmetry breaking at the hidden-order transition in URu2Si2
S Tonegawa, S Kasahara, T Fukuda… - Nature …, 2014 - nature.com
Since the 1985 discovery of the phase transition at T HO= 17.5 K in the heavy-fermion metal
URu2Si2, neither symmetry change in the crystal structure nor large magnetic moment that …
URu2Si2, neither symmetry change in the crystal structure nor large magnetic moment that …
Evidence for a nematic component to the hidden-order parameter in URu2Si2 from differential elastoresistance measurements
For materials that harbour a continuous phase transition, the susceptibility of the material to
various fields can be used to understand the nature of the fluctuating order and hence the …
various fields can be used to understand the nature of the fluctuating order and hence the …
Quantum-well states at the surface of a heavy-fermion superconductor
Two-dimensional electronic states at surfaces are often observed in simple wide-band
metals such as Cu or Ag (refs.,,–). Confinement by closed geometries at the nanometre …
metals such as Cu or Ag (refs.,,–). Confinement by closed geometries at the nanometre …