# Quantum Cluster Quasicrystals

**Authors:** Guido Pupillo, Primoz Ziherl, Fabio Cinti

arXiv: 1905.12073 · 2020-05-01

## TL;DR

This paper investigates superfluidity in a 2D quantum cluster quasicrystal using Monte Carlo simulations, revealing that moderate quantum fluctuations preserve quasicrystalline order and induce superfluidity, with transitions to other quantum phases at higher fluctuations.

## Contribution

It provides the first theoretical demonstration that quantum fluctuations can sustain superfluidity in a quasicrystal with cluster structure, expanding understanding of quantum phases in aperiodic materials.

## Key findings

- Moderate quantum fluctuations do not destroy quasicrystalline order.
- Small but finite superfluidity is observed in the quasicrystal.
- Large quantum fluctuations induce transitions to cluster solids, supersolids, and superfluids.

## Abstract

Quasicrystals remain among the most intriguing materials in physics and chemistry. Their structure results in many unusual properties including anomalously low friction as well as poor electrical and thermal conductivity but it also supports superconductivity, which shows that quantum effects in quasicrystals can be quite unique. Here we theoretically study superfluidity in a model quantum cluster quasicrystal. Using path-integral Monte Carlo simulations, we explore a 2D ensemble of bosons with the Lifshitz-Petrich-Gaussian pair potential, finding that moderate quantum fluctuations do not destroy the dodecagonal quasicrystalline order. This quasicrystal is characterized by a small yet finite superfluidity, demonstrating that particle clustering combined with the local cogwheel structure can underpin superfluidity even in the almost classical regime. This type of distributed superfluidity may also be expected in certain open crystalline lattices. Large quantum fluctuations are shown to induce transitions to cluster solids, supersolids and superfluids, which we characterize fully quantum-mechanically.

## Full text

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## Figures

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## References

49 references — full list in the complete paper: https://tomesphere.com/paper/1905.12073/full.md

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Source: https://tomesphere.com/paper/1905.12073