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IRIDATES Bill Flaherty Materials 286K, UCSB Dec. 8 th, 2014.

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Presentation on theme: "IRIDATES Bill Flaherty Materials 286K, UCSB Dec. 8 th, 2014."— Presentation transcript:

1 IRIDATES Bill Flaherty Materials 286K, UCSB Dec. 8 th, 2014

2 5D TRANSITION METALS: UNINTERESTING? “The properties of the 4d and 5d compounds tend to be less exotic” – Mattheiss, 1976 3d transition metal oxides: localized states  Strong correlations  Narrow bands, large U/W 4d, 5d: spatially extended states  Wide bandwidth  Low on-site repulsion, smaller U/W  Predicted to be metallic, ferromagnetic

3 DISCOVERY OF “MORE EXOTIC” 4D, 5D TMO S Sr 2 IrO 4 - M. K. Crawford et al., Phys. Rev. B 49, 9198 (1994). Sr 2 IrO 4, Sr 2 RuO 4 - R. J. Cava et al., Phys. Rev. B 49, 11 890 (1994) Ca 2-x Sr x RuO 4 - S. Nakatsuji and Y. Maeno, Phys. Rev. Lett. 84, 2666 (2000) Cd 2 Os 2 O 7 - D. Mandrus et al., Phys. Rev. B 63, 195104 (2001). Y, Ca, Sr, Bi Ruthenates - J. S. Lee et al., Phys. Rev. B 64, 245107 (2001).

4 SR-214 BAND STRUCTURE Sr 2 (2+) Ir (4+) O 4 Ir (4+) : 5d 5 system

5 SR-214: CORRECT BAND STRUCTURE Spin-Orbit Coupling (SOC) t 2g states → l = 1 states Strong SOC: t 2g splits into J eff = 3/2 and 1/2 Narrow Jeff = ½ band due to hopping integrals Novel J eff = 1/2 Mott State Induced by Relativistic Spin-Orbit Coupling in Sr 2 IrO 4 B. J. Kim et al., Phys. Rev. Lett 101, 076402 (2008)

6 OBSERVATION OF U + SOC ARPES, Optical Conductivity, XAS experiments DFT calculations (LDA, LDA + U) Novel Jeff = 1/2 Mott State Induced by Relativistic Spin-Orbit Coupling in Sr 2 IrO 4 B. J. Kim et al., Phys. Rev. Lett 101, 076402 (2008)

7 RESONANT X-RAY STUDIES Resonant X-ray Spectroscopy Contains information from quantum interference of different scattering paths Phase-Sensitive Observation of a Spin-Orbital Mott State in Sr 2 IrO 4 B. J. Kim et al., Science 323, 1329 (2009)

8 PHASE-SENSITIVE MEASUREMENTS J eff = ½ states – linear combinations of xy, yz, zx that differ in phase No phase difference for simple t 2g states (real wave fns.) Scattering amplitudes depend on phase differences between states → Test J eff = ½ model vs. S = ½ Phase-Sensitive Observation of a Spin-Orbital Mott State in Sr 2 IrO 4 B. J. Kim et al., Science 323, 1329 (2009)

9 RESULTS Phase-Sensitive Observation of a Spin-Orbital Mott State in Sr 2 IrO 4 B. J. Kim et al., Science 323, 1329 (2009)

10 TUNING THE I.-M.T. WITH STRUCTURE How can we tune U/W ? Bandwidth depends on number of Ir nearest neighbors Grow different Ruddelsden-Popper phases to change W and tune U/W

11 RUDDELSDEN-POPPER PHASES Sr n+1 Ir n O 3n+1 n = 1 Sr 2 IrO 4 four nearest neighbors n = 2 Sr 3 Ir 2 O 7 five nearest neighbors n → infinity SrIrO 3 (Perovskite on MgO substrate) six nearest neighbors Figure from D. A. Zocco et al., J. Phys.: Condens. Matter 26, 255603 (2014)

12 RESULTS – LDA + U Insulating Sr 2 IrO 4 Barely Insulating Sr 3 Ir 2 O 7 Correlated Metal SrIrO 3 U = 2 eV U typically much larger for a Mott Ins, 4-7 eV S. J. Moon et al., Phys. Rev. Lett. 101, 226402 (2008)

13 RESULTS Optical Conductivity S. J. Moon et al., Phys. Rev. Lett. 101, 226402 (2008)

14 TOPOLOGICAL MOTT INSULATORS SOC scales by atomic number as Z 4 Hg and Bi – strong SOC, weak correlation (s- and p-states)

15 TOPOLOGICAL INSULATORS Bulk is insulating Conducting surface states Robust against defects  topologically protected states Potential uses for quantum computing  Unusual particle statistics – Dirac fermions (SmB 6 – 2014)  Delocalized states resistant against decoherence

16 PYROCHLORE IRIDATES A 2 (3+) Ir 2 (4+) O 7 Spinons, quantum criticality TBI – Topological Band Ins GMI – Gapless Mott Ins TMI – Topological Mott Ins  Charge-spin separation  Spinons – gapless spin excitations  Insulating surface states

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