Engineering interaction potentials for stabilizing quantum quasicrystal phases
- URL: http://arxiv.org/abs/2503.15359v1
- Date: Wed, 19 Mar 2025 15:59:11 GMT
- Title: Engineering interaction potentials for stabilizing quantum quasicrystal phases
- Authors: Matheus Grossklags, Daniel Lima, Vinicius Zampronio, Fabio Cinti, Alejandro Mendoza-Coto,
- Abstract summary: We show that two-dimensional octagonal, decagonal, and dodecagonal aperiodic phases require a distinct number of properly tuned characteristic length scales for their stabilization.<n>We also perform a structural characterization of the quasicrystal patterns obtained and show that these phases coexist with a finite superfluid fraction.
- Score: 39.58317527488534
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We investigate the necessary features of the pair interaction for the stabilization of self-assembled quantum quasicrystals in two-dimensional bosonic systems. Unlike the classical scenario, our results show that two-dimensional octagonal, decagonal, and dodecagonal aperiodic phases require a distinct number of properly tuned characteristic length scales for their stabilization. By using a mean field spectral variational approach and Gross-Pitaevskii numerical calculations, we determine that the dodecagonal quasicrystal structure requires at least two characteristic length scales for its stabilization, while the decagonal and octagonal patterns need at least three and four length scales, respectively. The family of pair interaction potentials considered, albeit simple, is well justified in terms of a novel experimental platform based on laser-painted interactions in a cavity QED setup. Finally, we perform a structural characterization of the quasicrystal patterns obtained and show that these phases coexist with a finite superfluid fraction, forming what can be called a super quasicrystal phase.
Related papers
- Topological phases in two-dimensional Rydberg lattices [0.0]
We propose a simple and experimentally realizable two-dimensional lattice model consisting of two offset square sublattices of Rydberg atoms.<n>This model reveals a plethora of topological phases, all connected through the variation of the lattice geometry.
arXiv Detail & Related papers (2025-02-21T14:51:59Z) - Density-wave-type supersolid of two-dimensional tilted dipolar bosons [0.6562256987706128]
We predict a stable density-waves-type supersolid phase of a dilute gas of tilted dipolar bosons in a two-dimensional (2D) geometry.
This many-body phase is manifested by the formation of the stripe pattern and elasticity coexisting together with the Bose-Einstein condensation and superfluidity at zero temperature.
The predicted supersolid effect can be realized in a variety of experimental setups ranging from excitons in heterostructures to cold atoms and polar molecules in optical potentials.
arXiv Detail & Related papers (2023-12-04T08:15:03Z) - Dissipative preparation and stabilization of many-body quantum states in
a superconducting qutrit array [55.41644538483948]
We present and analyze a protocol for driven-dissipatively preparing and stabilizing a manifold of quantum manybody entangled states.
We perform theoretical modeling of this platform via pulse-level simulations based on physical features of real devices.
Our work shows the capacity of driven-dissipative superconducting cQED systems to host robust and self-corrected quantum manybody states.
arXiv Detail & Related papers (2023-03-21T18:02:47Z) - Exact Solutions for Solitary Waves in a Bose-Einstein Condensate under
the Action of a Four-Color Optical Lattice [0.0]
We address dynamics of Bose-Einstein condensates loaded into a one-dimensional four-color optical lattice (FOL) potential with commensurate wavelengths and tunable intensities.
The analysis identifies specific multi- parameter forms of the FOL potential which admits exact solitary-wave solutions.
The newly found solutions offer applications to the design of schemes for quantum simulations and processing quantum information.
arXiv Detail & Related papers (2022-01-12T12:35:56Z) - Phase diagram of Rydberg-dressed atoms on two-leg square ladders:
Coupling supersymmetric conformal field theories on the lattice [52.77024349608834]
We investigate the phase diagram of hard-core bosons in two-leg ladders in the presence of soft-shoulder potentials.
We show how the competition between local and non-local terms gives rise to a phase diagram with liquid phases with dominant cluster, spin, and density-wave quasi-long-range ordering.
arXiv Detail & Related papers (2021-12-20T09:46:08Z) - Quantum correlations, entanglement spectrum and coherence of
two-particle reduced density matrix in the Extended Hubbard Model [62.997667081978825]
We study the ground state properties of the one-dimensional extended Hubbard model at half-filling.
In particular, in the superconducting region, we obtain that the entanglement spectrum signals a transition between a dominant singlet (SS) to triplet (TS) pairing ordering in the system.
arXiv Detail & Related papers (2021-10-29T21:02:24Z) - Strongly-Interacting Bosons in a Two-Dimensional Quasicrystal Lattice [0.0]
Quasicrystals exhibit exotic properties inherited from the self-similarity of their long-range ordered, yet aperiodic, structure.
We show that strong interactions stabilize Mott phases, some of which have spontaneously broken eightfold symmetry.
arXiv Detail & Related papers (2020-10-15T08:21:01Z) - Superstripes and quasicrystals in bosonic systems with hard-soft corona
interactions [0.0]
We investigate the effect of quantum fluctuations on the phases of bosonic particles with isotropic hard-soft corona interactions.
A rich phase diagram, parametrized by the density of particles, reveals supersolid stripes, kagome and triangular crystals in the low-density regime.
In the high-density limit we observe patterns with 12-fold rotational symmetry compatible with periodic approximants of quasicrystalline phases.
arXiv Detail & Related papers (2020-09-21T22:24:19Z) - Engineering multipartite entangled states in doubly pumped parametric
down-conversion processes [68.8204255655161]
We investigate the quantum state generated by optical parametric down-conversion in a $chi(2) $ medium driven by two modes.
The analysis shows the emergence of multipartite, namely 3- or 4-partite, entangled states in a subset of the modes generated by the process.
arXiv Detail & Related papers (2020-07-23T13:53:12Z) - Hyperentanglement in structured quantum light [50.591267188664666]
Entanglement in high-dimensional quantum systems, where one or more degrees of freedom of light are involved, offers increased information capacities and enables new quantum protocols.
Here, we demonstrate a functional source of high-dimensional, noise-resilient hyperentangled states encoded in time-frequency and vector-vortex structured modes.
We generate highly entangled photon pairs at telecom wavelength that we characterise via two-photon interference and quantum state tomography, achieving near-unity visibilities and fidelities.
arXiv Detail & Related papers (2020-06-02T18:00:04Z) - Exploring 2D synthetic quantum Hall physics with a quasi-periodically
driven qubit [58.720142291102135]
Quasi-periodically driven quantum systems are predicted to exhibit quantized topological properties.
We experimentally study a synthetic quantum Hall effect with a two-tone drive.
arXiv Detail & Related papers (2020-04-07T15:00:41Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.