Physics – Quantum Physics
Scientific paper
2008-03-11
Phys. Rev. A 78, 012330 (2008)
Physics
Quantum Physics
13 pages, 10 figures, references added
Scientific paper
10.1103/PhysRevA.78.012330
We propose a method for controllable generation of non-local entangled pairs using spinor atoms loaded in an optical superlattice. Our scheme iteratively increases the distance between entangled atoms by controlling the coupling between the double wells. When implemented in a finite linear chain of 2N atoms, it creates a triplet valence bond state with large persistency of entanglement (of the order of N). We also study the non-equilibrium dynamics of the one-dimensional ferromagnetic Heisenberg Hamiltonian and show that the time evolution of a state of decoupled triplets on each double well leads to the formation of a highly entangled state where short-distance antiferromagnetic correlations coexist with longer-distance ferromagnetic ones. We present methods for detection and characterization of the various dynamically generated states. These ideas are a step forward towards the use of atoms trapped by light as quantum information processors and quantum simulators.
Barmettler Peter
Bloch Immanuel
Demler Eugene
Gritsev Vladimir
Lukin Mikhail D.
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