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Entangling ultracold atoms by a quantum phase transition

Atoms in 1D lattices. atoms in a longitudinal lattice are moved across a beam splitter . . splitter increases

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Entangling ultracold atoms by a quantum phase transition

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    1. U. Dorner University of Oxford Entangling ultracold atoms by a quantum phase transition

    3. Atoms in 1D lattices

    4. Atoms in 1D lattices

    5. Mapping to Spin Model

    6. Mapping to Spin Model

    7. Creating entanglement

    8. Creating entanglement

    9. Creating entanglement

    10. Creating entanglement

    11. Creating entanglement

    12. Application: Quantum Information Processing

    13. Dynamics: Landau-Zener

    14. Dynamics: Landau-Zener

    15. Dynamics: Landau-Zener

    16. Dynamics: Kibble-Zurek-Mechanism

    17. Dynamics: KZM

    18. Dynamics: KZM

    19. Summary

    20. People involved P. Zoller (Innsbruck) W. Zurek (Los Alamos) D. Jaksch (Oxford) M. Lewenstein (Hannover/Barcelona) P. Fedichev

    21. Single Qubit Rotations

    22. Two qubit gates

    23. Summary

    24. Single Qubit Rotations

    25. Creating entanglement

    27. Mapping to Spin Model

    28. Mapping to Spin Model

    30. Moving the atoms one by one across the splitter: Zipper

    31. Creating entanglement

    32. Atoms in 1D lattices

    33. Creating entanglement

    34. Summary

    36. Creating entanglement

    37. Single Qubit Rotations

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