The controlled indirect coupling between spatially-separated qubits in antiferromagnet-based NMR quantum registers

Details The controlled indirect coupling between spatially-separated qubits in antiferromagnet-based NMR quantum registers The controlled indirect coupling between spatially-separated qubits in antiferromagnet-based NMR quantum registers

2004-10-31

arxiv.org/abs/quant-ph/0411003v1

Physics

Quantum Physics

Latex 5 pages, 1 figure. Presented at International Symposium "Quantum Informatics 2004" Moscow, October 5-8, 2004. Will be pu

Scientific paper

10.1117/12.620505

It is considered the indirect inter-qubit coupling in 1D chain of atoms with nuclear spins 1/2, which plays role of qubits in the quantum register. This chain of the atoms is placed by regular way in easy-axis 3D antiferromagnetic thin plate substrate, which is cleaned from the other nuclear spin containing isotopes. It is shown that the range of indirect inter-spin coupling may run to a great number of lattice constants both near critical point of quantum phase transition in antiferromagnet of spin-flop type (control parameter is external magnetic field) and/or near homogeneous antiferromagnetic resonance (control parameter is microwave frequency).

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