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Showing 1–6 of 6 results

Advanced filters: Author: I. S. Elfimov Clear advanced filters

Electronic switching of topology in LaSbTe

This study shows that the nodal loop topology in LaSb_xTe_2−x can be controlled by chemical substitution and electron doping. The reversible opening and closing of a gap larger than 400 meV in the nodal loop enables on-demand switching of topology.

J. Bannies
M. Michiardi
M. C. Aronson
Research12 Nov 2025
Nature Materials

P: 1-7
Electronic response of a Mott insulator at a current-induced insulator-to-metal transition

Ca₂RuO₄ is a Mott insulator that becomes a metal when a current is passed through it. Now, the changes in its electronic structure are revealed as this transition takes place.

C. T. Suen
I. Marković
A. Damascelli
ResearchOpen Access24 Sept 2024
Nature Physics

Volume: 20, P: 1757-1763
Mixed-valence state in the dilute-impurity regime of La-substituted SmB₆

This study reveals a non-monotonic evolution of the mixed-valence character in the Sm_xLa_1−xB₆ series, with near-complete suppression of valence fluctuations in the intermediate substitution regime, followed by a re-emergent mixed-valence behavior in the dilute-impurity limit.

M. Zonno
M. Michiardi
A. Damascelli
ResearchOpen Access02 Sept 2024
Nature Communications

Volume: 15, P: 1-7
In situ doping control of the surface of high-temperature superconductors

In copper-oxide superconductors, charge carriers must be added to the insulating ‘parent’ compound before superconductivity appears. Exactly how the dopants affect the crystalline surface and evolving Fermi surface is now clear.

M. A. Hossain
J. D. F. Mottershead
A. Damascelli
Research22 Jun 2008
Nature Physics

Volume: 4, P: 527-531
Loss of nodal quasiparticle integrity in underdoped YBa₂Cu₃O_6+x

Quantitative measurements that establish the existence and evolution of quasiparticles across the whole phase diagram of a cuprate superconductor help to distinguish the many theoretical models for high-temperature superconductivity.

D. Fournier
G. Levy
A. Damascelli
Research10 Oct 2010
Nature Physics

Volume: 6, P: 905-911
Spin-orbit-controlled metal–insulator transition in Sr₂IrO₄

A combined ARPES and DFT study of Ru- and Rh-substituted samples of Sr₂IrO₄ reveals a collapse of its correlated insulating phase that is controlled by spin–orbit coupling.

B. Zwartsenberg
R. P. Day
A. Damascelli
Research27 Jan 2020
Nature Physics

Volume: 16, P: 290-294