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Quantum criticality at cryogenic melting of polar bubble lattices

Wei Luo, Alireza Akbarzadeh, Yousra Nahas, Sergei Prokhorenko () and Laurent Bellaiche ()
Additional contact information
Wei Luo: University of Arkansas
Alireza Akbarzadeh: University of Arkansas
Yousra Nahas: University of Arkansas
Sergei Prokhorenko: University of Arkansas
Laurent Bellaiche: University of Arkansas

Nature Communications, 2023, vol. 14, issue 1, 1-8

Abstract: Abstract Quantum fluctuations (QFs) caused by zero-point phonon vibrations (ZPPVs) are known to prevent the occurrence of polar phases in bulk incipient ferroelectrics down to 0 K. On the other hand, little is known about the effects of QFs on the recently discovered topological patterns in ferroelectric nanostructures. Here, by using an atomistic effective Hamiltonian within classical Monte Carlo (CMC) and path integral quantum Monte Carlo (PI-QMC), we unveil how QFs affect the topology of several dipolar phases in ultrathin Pb(Zr0.4Ti0.6)O3 (PZT) films. In particular, our PI-QMC simulations show that the ZPPVs do not suppress polar patterns but rather stabilize the labyrinth, bimeron and bubble phases within a wider range of bias field magnitudes. Moreover, we reveal that quantum fluctuations induce a quantum critical point (QCP) separating a hexagonal bubble lattice from a liquid-like state characterized by spontaneous motion, creation and annihilation of polar bubbles at cryogenic temperatures. Finally, we show that the discovered quantum melting is associated with anomalous physical response, as, e.g., demonstrated by a negative longitudinal piezoelectric coefficient.

Date: 2023
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DOI: 10.1038/s41467-023-43598-0

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