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Dzsaber, Sami; Zocco, Diego A; McCollam, Alix; Weickert, Franziska; McDonald, Ross; Taupin, Mathieu; Eguchi, Gaku; Yan, Xinlin; Prokofiev, Andrey; Tang, Lucas_M K; et al (, Nature Communications)Abstract It is becoming increasingly clear that breakthrough in quantum applications necessitates materials innovation. In high demand are conductors with robust topological states that can be manipulated at will. This is what we demonstrate in the present work. We discover that the pronounced topological response of a strongly correlated “Weyl-Kondo” semimetal can be genuinely manipulated—and ultimately fully suppressed—by magnetic fields. We understand this behavior as a Zeeman-driven motion of Weyl nodes in momentum space, up to the point where the nodes meet and annihilate in a topological quantum phase transition. The topologically trivial but correlated background remains unaffected across this transition, as is shown by our investigations up to much larger fields. Our work lays the ground for systematic explorations of electronic topology, and boosts the prospect for topological quantum devices.more » « less
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Bachmann, Maja D.; Ferguson, G. M.; Theuss, Florian; Meng, Tobias; Putzke, Carsten; Helm, Toni; Shirer, K. R.; Li, You-Sheng; Modic, K. A.; Nicklas, Michael; et al (, Science)Although crystals of strongly correlated metals exhibit a diverse set of electronic ground states, few approaches exist for spatially modulating their properties. In this study, we demonstrate disorder-free control, on the micrometer scale, over the superconducting state in samples of the heavy-fermion superconductor CeIrIn 5 . We pattern crystals by focused ion beam milling to tailor the boundary conditions for the elastic deformation upon thermal contraction during cooling. The resulting nonuniform strain fields induce complex patterns of superconductivity, owing to the strong dependence of the transition temperature on the strength and direction of strain. These results showcase a generic approach to manipulating electronic order on micrometer length scales in strongly correlated matter without compromising the cleanliness, stoichiometry, or mean free path.more » « less
