H. Schwab scite author profile

Spontaneous symmetry breaking in physical systems leads to salient phenomena at all scales, from the Higgs mechanism and the emergence of the mass of the elementary particles, to superconductivity and magnetism in solids. The hidden-order state arising below 17.5 K in URu 2 Si 2 is a puzzling example of one of such phase transitions: its associated broken symmetry and gap structure have remained longstanding riddles. Here we directly image how, across the hidden-order transition, the electronic structure of URu 2 Si 2 abruptly reconstructs. We observe an energy gap of 7 meV opening over 70% of a large diamond-like heavy-fermion Fermi surface, resulting in the formation of four small Fermi petals, and a change in the electronic periodicity from body-centred tetragonal to simple tetragonal. Our results explain the large entropy loss in the hidden-order phase, and the similarity between this phase and the high-pressure antiferromagnetic phase found in quantum-oscillation experiments.

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Momentum-Resolved Evolution of the Kondo Lattice into “Hidden Order” inURu2Si2

Boariu

Bareille

Schwab

et al. 2013

Phys. Rev. Lett.

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We study, using high-resolution angle-resolved photoemission spectroscopy, the evolution of the electronic structure in URu2Si2 at the Γ, Z and X high-symmetry points from the high-temperature Kondo-screened regime to the low-temperature 'hidden-order' (HO) state. At all temperatures and symmetry points, we find structures resulting from the interaction between heavy and light bands, related to the Kondo lattice formation. At the X point, we directly measure a hybridization gap of 11 meV already open at temperatures above the ordered phase. Strikingly, we find that while the HO induces pronounced changes at Γ and Z, the hybridization gap at X does not change, indicating that the hidden-order parameter is anisotropic. Furthermore, at the Γ and Z points, we observe the opening of a gap in momentum in the HO state, and show that the associated electronic structure results from the hybridization of a light electron band with the Kondo-lattice bands characterizing the paramagnetic state.

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Microstructure and mechanical properties of the near-beta titanium alloy Ti-5553 processed by selective laser melting

et al. 2016

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Selective Laser Melting of Ti-45Nb Alloy

Schwab

Prashanth

Löber

et al. 2015

Metals

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Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants due to its low Young's modulus. Ti-45Nb (wt.%) gas atomized powders were used to produce bulk samples by selective laser melting with three different parameter sets (energy inputs). A β-phase microstructure consisting of elliptical grains with an enriched edge of titanium was observed by scanning electron microscopy and X-ray diffraction studies. The mechanical properties of these samples were evaluated using hardness and compression tests, which suggested that the strength of the samples increases with increasing energy input within the range considered.

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Coherent Heavy Quasiparticles in aCePt5Surface Alloy

et al. 2011

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H. Schwab

Momentum-resolved hidden-order gap reveals symmetry breaking and origin of entropy loss in URu2Si2

Momentum-Resolved Evolution of the Kondo Lattice into “Hidden Order” inURu2Si2

Microstructure and mechanical properties of the near-beta titanium alloy Ti-5553 processed by selective laser melting

Selective Laser Melting of Ti-45Nb Alloy

Coherent Heavy Quasiparticles in aCePt5Surface Alloy

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