Quantum Quench of an Atomic Mott Insulator

Details Quantum Quench of an Atomic Mott Insulator Quantum Quench of an Atomic Mott Insulator

2011-03-24

arxiv.org/abs/1103.4662v2

Physics

Condensed Matter

Quantum Gases

Scientific paper

We study quenches across the Bose-Hubbard Mott-insulator-to-superfluid quantum phase transition using an ultra-cold atomic gas trapped in an optical lattice. Quenching from the Mott insulator to superfluid phase is accomplished by continuously tuning the ratio of Hubbard tunneling to interaction energy. Excitations of the condensate formed after the quench are measured using time-of-flight imaging. We observe that the degree of excitation is proportional to the fraction of atoms that cross the phase boundary, and that the quantity of excitations and energy produced during the quench have a power-law dependence on the quench rate. These phenomena suggest an excitation process analogous to the Kibble-Zurek (KZ) mechanism for defect generation in non-equilibrium classical phase transitions.

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