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Vector spin chirality in classical & quantum spin systems

Vector spin chirality in classical & quantum spin systems. Jung Hoon Han (SKKU). Collaboration. Jung Hoon Kim, Jin Hong Park (SKKU) Shigeki Onoda (RIKEN) Naoto Nagaosa (U. Tokyo) Chenglong Jia (Germany) Raoul Dillenschneider (Augsburg). Motivation.

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Vector spin chirality in classical & quantum spin systems

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  1. Vector spin chiralityin classical & quantum spin systems Jung Hoon Han (SKKU)

  2. Collaboration Jung Hoon Kim, Jin Hong Park (SKKU) Shigeki Onoda (RIKEN) Naoto Nagaosa (U. Tokyo) Chenglong Jia (Germany) Raoul Dillenschneider (Augsburg)

  3. Motivation A class of materials with strong coupling of spin & lattice (orbital) degrees of freedom were (re)discovered. One stark manifestation of the coupling is the control of ferroelectric polarization using only the magnetic field. Nature 426, 55 (2003)

  4. Two types of improper multiferroics • Exchange-striction-driven (RMn2O5) • Spin-chirality-driven

  5. Vector spin chirality (vSC) It was soon realized that the relevant physics was in the coupling of the local dipole moment to the local vector spin chirality (vSC) • Noncollinear magnetic states possess a nonzero vSC • Idea of non-magnetic, but vSC-ordered magnetic state goes back as early as Villain, J. Phys. C 10, 4793 (1977). Other theoretical works on vSC: • S. Miyashita and H. Shiba, J. Phys. Soc. Jpn. 53, 1145 (1984). • H. Kawamura and M. Tanemura, Phys. Rev. B 36, 7177 (1987). • H. Kawamura, J. Phys.: Condens. Matter 10, 4707 (1998).

  6. Connection to ferroelectricity Connection of vSC to local dipole moment, or ferroelectricity, was noticed after some key neutron experiment T

  7. Same symmetry ! INVERSION INVERSION • With spiral magnetism one can define a SENSE of ROTATION, which is equivalent to the vSC • The forward-rotating spins produce UP polarization, the backward-rotating spins produce DOWN polarization, or vice versa. • Symmetry arguments for multiferroic materials are worked out in • A. B. Harris, Phys. Rev. B 76, 054447 (2007). • T. Arima, JPSJ 76, 073702 (2007) – CuFeO2

  8. Bookkeeping of chiral multiferroics RED = magnetic ions

  9. Microscopic Theories (mean-field) TbMnO3 Mn d orbitals are orbitally ordered Magnetic interaction contain both ferro and antiferro Exchanges; fertile ground for frustrated magnetism

  10. Microscopic Theories (mean-field) For general d-electron configurations

  11. Microscopic Theories • H. Katsura, N. Nagaosa, and A. V. Balatsky, PRL 95, 057205 (2005) • JONH, PRB 74, 224444 (2006) • JONH, PRB 76, 023708 (2007)

  12. Microscopic Theories (LDA) Mean-field calculation reflects distortion of electronic wave functions due to spiral magnetic order The mechanism is the spin-orbit coupling The wave function distortion would generically lead to internal electric field, which would tend to displace ions, and generate dipole moments LDA calculation reflects the atomic movement better than MF calculation (Xiang & Whangbo, PRL (2007)

  13. Microscopic Theories (LDA)

  14. T, frustration Spiral Magnetic Collinear Magnetic Paramagnetic Ferro- electric Existing Experiments Often, there is a first magnetic transition to COLLINEAR spin states, for which no polarization is induced A second transition at a lower temperature to spiral spin states cause nonzero polarization

  15. What’s possible Can we envision a phase without magnetic order, but still has the remnant of vSC (vector spin chirality) ? Theoretically certainly possible. vSCL (vector spin chiral liquid) Chiral spin states ! T, frustration Magnetic Chiral Paramgnetic Ferroelectric

  16. Villain’s idea of vSC Villain, JPhysC (1977)

  17. Ginzburg-Landau theory of vSCL Recent work: Ginzburg-Landau calculation showed possibility of a chiral spin liquid phase with sufficient frustration Onoda & Nagaosa PRL 99, 027206 (2007)

  18. Quantum spin S=1/2 Multiferroic Seki et al. arXiv:0801.2533 Park et al. PRL (2007)

  19. Quantum spin S=1/2 Multiferroic Enderle et al. EPL (2005) Naito et al JPSJ (2007)

  20. Search for models of vSCL Both materials are exciting due to quantum nature of S=1/2 spins and the 1D character of spin network However, the ferroelectricity is concomitant with spiral magnetic ordering Not a true vSCL yet

  21. vSCL found ? Cinti et al. PRL 100, 057203 (2008)

  22. Search for models of vSCL In light of recent developments, search for model Hamiltonians (both classical & quantum) where the ground state supports ordered vSC but no ordering of magnetic moments There is already some evidence from GL theory A 1D microscopic calculation exists for a 1D spin model We know little about 2D vSCL A classical 2D model with ordered vSC but no magnetic moment may have been found (arXiv:0804.4034)

  23. 1D model of vSCL (quantum) XXZ spin chain (S=1/2) with nearest and next-nearest neighbor exchange Hikihara et al. JPSJ 69, 259 (2000) vSCL found for XY-like, J2-dominant regime of the model

  24. Furukawa et al. arXiv:0802.3256v1 A recent calculation of Furukawa et al. confirmed existence of vCSL phase in the same model

  25. 2D model of vSCL (quantum) ?? In 2D we do not seem to have any idea how to write down a quantum spin model with long-range vSC correlation 2D vSC solid state can be generated easily with Dzyaloshinskii-Moriya interaction 1D example:

  26. Analogy with persistent current For S=1/2, Jordan-Wigner mapping gives Spin chirality maps onto bond current A current-flowing ground state in the fermion picture corresponds to vSC-ordered state in the spin picture (Dillenschneider et al. arXiv:0705.3993)

  27. 2D model of vSCL (classical) - - - + + + - - - + + + A similar manipulation can be made in 2D to obtain vSCS A true vSCL state is still out of reach… We recently re-examined AFM XY model on triangular lattice with huge bi-quadratic exchange Magnetic order -> vSC order But can vSC order first before magnetism does?

  28. J1-J2 model on triangular lattice PONH, arXiv:0804.4034 vSC ordering occurs below RED curve Magnetic ordering occurs below BLACK & BLUE curve The region x>xc supports vSCL phase with condensation of vSC, but no magnetic ordering has yet occurred

  29. Summary • We have come a long way since the initial discovery of multiferroicity in • understanding the coupling of vSC and local electric dipoles • An interesting possibility of purely vSC-ordered liquid phase is opening up • (GL theory, 1D quantum spin models and compounds) • A 2D classical model which supports vSCL phase seems feasible • (2D AFM XY on triangular lattice) • 2D quantum model with vSCL ground state will be exciting

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