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Spin Correlated States in Optical Lattices Fei Zhou ( ITP, Utrecht ) April 15, 2003 PIMS, Banff National Park, Canada Acknowledgement: E.Demler (Harvard),

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Presentation on theme: "Spin Correlated States in Optical Lattices Fei Zhou ( ITP, Utrecht ) April 15, 2003 PIMS, Banff National Park, Canada Acknowledgement: E.Demler (Harvard),"— Presentation transcript:

1 Spin Correlated States in Optical Lattices Fei Zhou ( ITP, Utrecht ) April 15, 2003 PIMS, Banff National Park, Canada Acknowledgement: E.Demler (Harvard), F. D. Haldane (Princeton), P. W. Wiegmann (Chicago) G. Barkema, M. Snoek, J. Wiemer (Utrecht) Funded by the FOM, the Netherlands

2 Optical lattices

3 Information processor and Information storage 100…Ghz, 200…Gb DVD/CD dr. $$$$(?)

4 A lab for baby universe ?  n(2)) Creation of vortices, monopoles and half vortices.  (1), n(1))

5

6 S=1/2 Fermions in optical lattices (small hopping limit) Neel Ordered Gapless Spin liquid HTcS made of cold atoms?

7 S=0 bosons in lattices In (a) and (b), one boson per site. t is the hopping and can be varied by tuning laser intensities of optical lattices; U is an intra-site interaction energy. In a Mott state, all bosons are localized. M. P. A. Fisher et al., PRB 40, 546 (1989); On Mott states in a finite trap, see Jaksch et al., PRL. 81, 3108-3111(1998). U Mott states ( t << U) Condensates (t >>U)

8 Absorption images of interference patterns as the laser intensity is increased (from a to h). (a-d) BECs and (g-h) Mott insulating states Greiner et al., Nature 415, 39( 02)

9   S=1 bosons with Anti-ferromagnetic interactions

10 Condensates of spin one bosons (d>1) N(Q) Q x y z   Snap shots

11 Half vortices In a half vortex, each atom makes a  spin rotation; a half vortex carries one half circulation of an integer vortex. A half vortex ring is also a hedgehog.  circulation y  spin rotation Z x y x The vortex is orientated along the z-direction; the spin rotation and circulating current occur in an x-y plane. Z ring

12 S=1 bosons with anti-ferromagnetic interactions in optical lattices ( 3D and 2D, N=2k) Polar BEC (a) Nematic MI (b) Spin Singlet MI (c) t: Hopping  he critical value of  is determined numerically.

13 Schematic of microscopic wave functions a) NMI; b) SSMI (N=2k); c) SSMI (N=2k+1 in 1d). Each pair of blue and red dots with a ring is a spin singlet.

14 Numerics I: Large N=2k limit  SSMI NMI  vs.  (proportional to hopping) is plotted here. Blue and Green lines represent metal stable states close to the critical point.

15 The energy Vs.   SSMI NMI   10.85   

16 Spin singlet quantum “condensates” in 1D optical lattices (SSQC) t DVBC SSQC(“e”) t SSMISSQC(“2e”) (a) (b) S=1, “Q=e” bosons with AF interactions ===> S=0, “Q=e” bosons interacting via Ising gauge fields N=2k+1 N=2k

17 Spin one bosons in optical lattices Work in progress Towards topological fault tolerant quantum information storage We have found 1) Polar Condensates 2) Nematic Mott insulators 3) Spin singlet Mott insulators 4) Valence bond crystals (N=2k+1,1D) 5) Spin singlet condensates (1D)

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