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Finding Traps in Non-linear Spin Arrays

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arxiv 0911.3579 v1 pith:RXNCCNHN submitted 2009-11-18 quant-ph

Finding Traps in Non-linear Spin Arrays

classification quant-ph
keywords linearstatesystemchaindifferencedisturbmaximallyspin
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Precise knowledge of the Hamiltonian of a system is a key to many of its applications. Tasks such state transfer or quantum computation have been well studied with a linear chain, but hardly with systems, which do not possess a linear structure. While this difference does not disturb the end-to-end dynamics of a single excitation, the evolution is significantly changed in other subspaces. Here we quantify the difference between a linear chain and a pseudo-chain, which have more than one spin at some site (block). We show how to estimate a number of all spins in the system and the intra-block coupling constants. We also suggest how it is possible to eliminate excitations trapped in such blocks, which may disturb the state transfer. Importantly, one uses only at-ends data and needs to be able to put the system to either the maximally magnetized or the maximally mixed state. This can obtained by controlling a global decoherence parameter, such as temperature.

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