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Paper detail

Quadratic Fermi Node in a 3D Strongly Correlated Semimetal

Strong spin-orbit coupling fosters exotic electronic states such as topological insulators and superconductors, but the combination of strong spin-orbit and strong electron-electron interactions is just beginning to be understood. Central to this emerging area are the 5d transition metal iridium oxides. Here, in the pyrochlore iridate Pr2Ir2O7, we identify a nontrivial state with a single point Fermi node protected by cubic and time-reversal symmetries, using a combination of angle-resolved photoemission spectroscopy and first principles calculations. Owing to its quadratic dispersion, the unique coincidence of four degenerate states at the Fermi energy, and strong Coulomb interactions, non-Fermi liquid behavior is predicted, for which we observe some evidence. Our discovery implies that Pr2Ir2O7 is a parent state that can be manipulated to produce other strongly correlated topological phases, such as topological Mott insulator, Weyl semi-metal, and quantum spin and anomalous Hall states.

preprint2015arXivOpen access
Takeshi KondoM. NakayamaR. ChenJ. J. IshikawaE. -G. MoonT. YamamotoY. OtaW. MalaebH. KanaiY. NakashimaY. IshidaR. YoshidaH. YamamotoM. MatsunamiS. KimuraN. InamiK. OnoH. KumigashiraS. NakatsujiL. BalentsS. Shin
cond-mat.mes-hallcond-mat.str-elcond-mat.mtrl-sci
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Takeshi KondoM. NakayamaR. ChenJ. J. IshikawaE. -G. MoonT. YamamotoY. OtaW. MalaebH. KanaiY. NakashimaY. IshidaR. YoshidaH. YamamotoM. MatsunamiS. KimuraN. InamiK. OnoH. KumigashiraS. NakatsujiL. BalentsS. Shin

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