Quantum simulation of small-polaron formation with trapped ions
URL: http://link.aps.org/doi/10.1103/PhysRevLett.109.250501
DOI: 10.1103/PhysRevLett.109.250501
PACS: 03.67.Ac, 37.10.Ty, 71.38.Ht
We propose an analog quantum simulation of small-polaron physics using a one-dimensional system of trapped ions acted upon by off-resonant standing waves. This system, envisioned as an array of microtraps, in the single-excitation case allows the realization of the antiadiabatic regime of the Holstein model. We show that the strong excitation-phonon coupling regime, characterized by the formation of small polarons, can be reached using realistic values of the relevant system parameters. Finally, we propose measurements of the quasiparticle residue and the average number of phonons in the ground state, experimental probes validating the polaronic character of the phonon-dressed excitation.
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