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W2034784703 abstract "We study two many-body systems of bosons interacting via an infinite three-body contact repulsion in a lattice: a pairs quasicondensate induced by correlated hopping and the discrete version of the Pfaffian wave function. We propose to experimentally realize systems characterized by such interaction by means of a proper spin-1 lattice Hamiltonian: spin degrees of freedom are locally mapped into occupation numbers of emerging bosons, in a fashion similar to spin-1/2 and hardcore bosons. Such a system can be realized with ultracold spin-1 atoms in a Mott insulator with a filling factor of 1. The high versatility of these setups allows us to engineer spin-hopping operators breaking the SU(2) symmetry, as needed to approximate interesting bosonic Hamiltonians with three-body hardcore constraint. For this purpose we combine bichromatic spin-independent superlattices and Raman transitions to induce a different hopping rate for each spin orientation. Finally, we illustrate how our setup could be used to experimentally realize the first setup, that is, the transition to a pairs quasicondensed phase of the emerging bosons. We also report on a route toward the realization of a discrete bosonic Pfaffian wave function and list some open problems for reaching this goal." @default.
W2034784703 created "2016-06-24" @default.
W2034784703 creator A5007108725 @default.
W2034784703 creator A5051113581 @default.
W2034784703 creator A5063530589 @default.
W2034784703 creator A5083228566 @default.
W2034784703 date "2010-10-27" @default.
W2034784703 modified "2023-10-17" @default.
W2034784703 title "Emerging bosons with three-body interactions from spin-1 atoms in optical lattices" @default.
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W2034784703 doi "https://doi.org/10.1103/physreva.82.043629" @default.
W2034784703 hasPublicationYear "2010" @default.
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