Quantum Systems Exhibit New Phases

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topological quantum matter

Phys Org

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Science

Quantum simulator realizes strongly interacting Mott-Meissner phases in bosonic flux ladders

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Researchers at Ludwig-Maximilians-Universität , Max Planck Institute for Quantum Optics and Munich Center for Quantum Science and Technology recently realized a strongly interacting phase of matter in large-scale bosonic flux ladders.

Their paper, published in Nature Physics , could open new exciting possibilities for the in-depth study of topological quantum matter.

In their experiments, the researchers utilized optical superlattices, a so-called Feshbach resonance that provides an important tuning knob.

Impertro and his colleagues hope that their recent efforts will inform future theoretical and experimental studies focusing on topological many-body physics.

In the future, the methods they devised could help to realize other complex quantum phases that have so far proved difficult to engineer experimentally.

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