Litcius/Paper detail

Motion and teleportation of polar bubbles in low-dimensional ferroelectrics

Sergei Prokhorenko, Yousra Nahas, Vivasha Govinden, Qi Zhang, V. Nagarajan, L. Bellaïche

2024Nature Communications26 citationsDOIOpen Access PDF

Abstract

Abstract Electric bubbles are sub-10nm spherical vortices of electric dipoles that can spontaneously form in ultra-thin ferroelectrics. While the static properties of electric bubbles are well established, little to nothing is known about the dynamics of these particle-like structures. Here, we reveal pathways to realizing both the spontaneous and controlled dynamics of electric bubbles in ultra-thin Pb(Zr 0.4 Ti 0.6 )O 3 films. In low screening conditions, we find that electric bubbles exhibit thermally-driven chaotic motion giving rise to a liquid-like state. In the high screening regime, we show that bubbles remain static but can be continuously displaced by a local electric field. Additionally, we predict and experimentally demonstrate the possibility of bubble teleportation - a process wherein a bubble is transferred to a new location via a single electric field pulse of a PFM tip. Finally, we attribute the discovered phenomena to the hierarchical structure of the energy landscape.

Topics & Concepts

Electric fieldBubblePhysicsVortexPolarTeleportationDipoleCondensed matter physicsChaoticMaterials scienceMechanicsQuantumQuantum mechanicsComputer scienceQuantum channelArtificial intelligenceQuantum informationCharacterization and Applications of Magnetic NanoparticlesMultiferroics and related materialsMagnetic properties of thin films