Luming Duan

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Luming Duan

Enrico Fermi Collegiate Professor

Office Location(s): 4219 Randall
Phone: 734.763.3179

  • Fields of Study
    • Theoretical Atomic, Molecular, and Optical Physics
  • About

    Professor Duan's research focuses on theory and implementation of quantum information and strongly correlated physics with ultracold atoms. Quantum information science concerns the understanding and application of the mysterious concept of "entanglement" arising from quantum mechanics. One main task of quantum information science is to find physical implementations in which quantum entanglement can be created and manipulated at will for realization of super-fast quantum computation or for secure quantum communication and cryptography. His group is pursuing innovative ideas and theoretical schemes to significantly advance implementation of quantum information in various kinds of physical systems.

    For ultracold atoms, the primary interest of Professor Duan's group lies in the study of strongly correlated many-body phenomena when these atoms (Bose-Einstein condensate or degenerate Fermionic atomic gas) are loaded into an optical lattice. They propose diverse methods to engineer many-body Hamiltonians by the optical lattice design and by control of the atomic interaction strength and their spin states. This system, on the one hand, can be used to simulate various other strongly correlated systems to achieve a better understanding of the involved physics, and on the other hand, provides a platform to study new strongly correlated phenomena.

    Selected Publications

    Quantum Networks with Trapped Ions, (L. M. Duan and C. Monroe), Reviews of Modern Physics 82, 1209 (2010).

    Quantum Teleportation Between Distant Matter Qubits, (S. Olmschenk, D. N. Matsukevich, P. Maunz, D. Hayes, L. M. Duan, C. Monroe), Science 323, 486 (2009).

    Large Scale Quantum Computation in an Anharmonic Linear Ion Trap, (G. D. Lin, S. L. Zhu, R. Islam, K. Kim, M. S. Chang, S. Korenblit, C. Monroe, L. M. Duan), Europhys. Lett. 86, 60004 (2009).

    Entanglement of Single-Atom Quantum Bits at a Distance, (D. L. Moehring, P. Maunz, S. Olmschenk, K. C. Younge, D. N. Matsukevich, L.-M. Duan, and C. Monroe), Nature 449, 68 (2007).

    Spin Hall Effects for Cold Atoms in a Light Induced Gauge Potential, (S. L. Zhu, H. Fu, C. J. Wu, S. C. Zhang, L. M. Duan), Phys. Rev. Lett. 97, 240401 (2006).

    Effective Hamiltonian for Fermions in an Optical Lattice Across a Feshbach Resonance, (L. M. Duan), Phys. Rev. Lett. 95, 243202 (2005).

    Efficient Quantum Computation with Probabilistic Quantum Gates, (L. M. Duan and R. Raussendorf), Phys. Rev. Lett. 95, 080503 (2005).

    Scalable Photonic Quantum Computation Through Cavity Assisted Interaction, (L. M. Duan, J. Kimble), Phys. Rev. Lett. 92, 127902 (2004).

    Controlling Spin Exchange Interactions of Ultracold Atoms in Optical Lattices, (L. M. Duan, E. Demler, M. D. Lukin), Phys. Rev. Lett. 91, 090402 (2003).

    Long-Distance Quantum Communication with Atomic Ensembles and Linear Optics, (L. M. Duan, M. Lukin, J. I. Cirac, P. Zoller), Nature 414, 413-418 (2001).

  • Education
    • University of Science and Technology of China B.S. 1994
    • University of Science and Technology of China Ph.D. 1998