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Measurement induced dynamics for spin chain quantum communication and its application for optical lattices

We present a protocol for quantum state transfer and remote state preparation across spin chains which operate in their anti-ferromagnetic mode. The proposed mechanism harnesses the inherent entanglement of the ground state of the strongly correlated many-body systems which naturally exists for free. The uniform Hamiltonian of the system does not need any engineering and, during the whole process, remains intact while a single qubit measurement followed by a single-qubit rotation are employed for both encoding and inducing dynamics in the system. This, in fact, has been inspired by recent progress in observing spin waves in optical lattice experiments, in which manipulation of the Hamiltonian is hard and instead local rotations and measurements have become viable. The attainable average fidelity stays above the classical threshold for chains up to length $~50$ and the system shows very good robustness against various sources of imperfection.

preprint2014arXivOpen access
Sima PouyandehFarhad ShahbaziAbolfazl Bayat
cond-mat.str-elquant-ph
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Sima PouyandehFarhad ShahbaziAbolfazl Bayat

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