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Title: | Optimal dynamics for quantum-state and entanglement transfer through homogeneous quantum systems |
Authors: | Banchi, L. Apollaro, Tony John George Cuccoli, A. Vaia, R. Verrucchi, P. |
Keywords: | Quantum systems Quantum entanglement Spintronics Quantum computing |
Issue Date: | 2010 |
Publisher: | American Physical Society |
Citation: | Banchi, L., Apollaro, T. J. G., Cuccoli, A., Vaia, R., & Verrucchi, P. (2010). Optimal dynamics for quantum-state and entanglement transfer through homogeneous quantum systems. Physical Review A, 82(5), 052321. |
Abstract: | The capability of faithfully transmit quantum states and entanglement through quantum channels is one of the key requirements for the development of quantum devices. Different solutions have been proposed to accomplish such a challenging task, which, however, require either an ad hoc engineering of the internal interactions of the physical system acting as the channel or specific initialization procedures. Here we show that optimal dynamics for efficient quantum-state and entanglement transfer can be attained in generic quantum systems with homogeneous interactions by tuning the coupling between the system and the two attached qubits. We devise a general procedure to determine the optimal coupling, and we explicitly implement it in the case of a channel consisting of a spin- 1 2XY chain. The quality of quantum-state and entanglement transfer is found to be very good and, remarkably, almost independent of the channel length. |
URI: | https://www.um.edu.mt/library/oar/handle/123456789/100290 |
Appears in Collections: | Scholarly Works - FacSciPhy |
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File | Description | Size | Format | |
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Optimal_dynamics_for_quantum-state_and_entanglement_transfer.pdf Restricted Access | 419.02 kB | Adobe PDF | View/Open Request a copy |
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