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The emergence of classical behavior in magnetic adatoms

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arxiv 1405.3304 v1 pith:KEWTQV6Z submitted 2014-05-13 cond-mat.str-el

The emergence of classical behavior in magnetic adatoms

classification cond-mat.str-el
keywords magneticbehaviorclassicalstatesadatomscouplingemergenceground
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A wide class of nanomagnets shows striking quantum behavior, known as quantum spin tunneling (QST): instead of two degenerate ground states with opposite magnetizations, a bonding-antibonding pair forms, resulting in a splitting of the ground state doublet with wave functions linear combination of two classically opposite magnetic states, leading to the quenching of their magnetic moment. Here we study how QST is destroyed and classical behavior emerges in the case of magnetic adatoms, as the strength of their coupling, either to the substrate or to each other, is increased. Both spin-substrate and spin-spin coupling renormalize the QST splitting to zero allowing the environmental decoherence to eliminate superpositions between classical states, leading to the emergence of spontaneous magnetization.

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