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Main Authors: Morin, C., Lagoin, C., Gupta, T., Reinic, N., Baldwin, K., Pfeiffer, L., Pupillo, G., Dubin, F.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.16509
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author Morin, C.
Lagoin, C.
Gupta, T.
Reinic, N.
Baldwin, K.
Pfeiffer, L.
Pupillo, G.
Dubin, F.
author_facet Morin, C.
Lagoin, C.
Gupta, T.
Reinic, N.
Baldwin, K.
Pfeiffer, L.
Pupillo, G.
Dubin, F.
contents In condensed-matter physics, long-range correlations introduce quantum states of matter that challenge intuition. For instance, supersolids combine symmetry-breaking crystalline structure, i.e. density order, and frictionless superfluid flow. Envisioned over fifty years ago, supersolids have proven to only exist under very stringent conditions, with experimental evidence limited to few observations. Many-body phases with supersolid properties in fact reduce to a few recent observations for weakly interacting Bose gases. Here, we demonstrate a new framework to realize supersolid crystals in the strong interaction regime, by confining dipolar bosons in a lattice with long-range hopping. We study dipolar excitons that genuinely realize this lattice model. At fractional lattice fillings - 1/4, 1/3 and 1/2 - we report mesoscopic quantum solids, across over 100 sites, spontaneously breaking translational symmetry. At the same time, we show that off-diagonal long-range order is induced by long-range hopping, such that exciton solids are superfluids. State-of-the-art numerical methods quantitatively confirm that supersolidity builds up in the ground-state of the lattice Hamiltonian. Our studies of strongly-correlated supersolid crystals open new frontiers for exploration in condensed matter physics.
format Preprint
id arxiv_https___arxiv_org_abs_2512_16509
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Supersolid crystals of dipolar excitons in a lattice
Morin, C.
Lagoin, C.
Gupta, T.
Reinic, N.
Baldwin, K.
Pfeiffer, L.
Pupillo, G.
Dubin, F.
Quantum Gases
In condensed-matter physics, long-range correlations introduce quantum states of matter that challenge intuition. For instance, supersolids combine symmetry-breaking crystalline structure, i.e. density order, and frictionless superfluid flow. Envisioned over fifty years ago, supersolids have proven to only exist under very stringent conditions, with experimental evidence limited to few observations. Many-body phases with supersolid properties in fact reduce to a few recent observations for weakly interacting Bose gases. Here, we demonstrate a new framework to realize supersolid crystals in the strong interaction regime, by confining dipolar bosons in a lattice with long-range hopping. We study dipolar excitons that genuinely realize this lattice model. At fractional lattice fillings - 1/4, 1/3 and 1/2 - we report mesoscopic quantum solids, across over 100 sites, spontaneously breaking translational symmetry. At the same time, we show that off-diagonal long-range order is induced by long-range hopping, such that exciton solids are superfluids. State-of-the-art numerical methods quantitatively confirm that supersolidity builds up in the ground-state of the lattice Hamiltonian. Our studies of strongly-correlated supersolid crystals open new frontiers for exploration in condensed matter physics.
title Supersolid crystals of dipolar excitons in a lattice
topic Quantum Gases
url https://arxiv.org/abs/2512.16509