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Author Guyonnet, Jill, author

Title Ferroelectric domain walls : statics, dynamics, and functionalities revealed by atomic force microscopy / Jill Guyonnet
Published Cham ; New York : Springer, 2014

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Description 1 online resource
Series Springer theses
Springer theses.
Contents Domain Walls in Ferroelectric Materials -- Experimental Setup -- Lateral Piezoelectric Response Across Ferroelectric Domain Walls -- Electrical Conduction at 180° Ferroelectric Domain Walls -- A Statistical Approach to Domain Wall Roughening and Dynamics: Disordered Elastic Systems -- Measuring the Roughness Exponent of One-Dimensional Interfaces -- Roughness Analysis of 180° Ferroelectric Domain Walls -- Disorder and Environmental Effects on Nanodomain Growth
Summary Using the nanometric resolution of atomic force microscopy techniques, this work explores the rich fundamental physics and novel functionalities of domain walls in ferroelectric materials, the nanoscale interfaces separating regions of differently oriented spontaneous polarization. Due to the local symmetry-breaking caused by the change in polarization, domain walls are found to possess an unexpected lateral piezoelectric response, even when this is symmetry-forbidden in the parent material. This has interesting potential applications in electromechanical devices based on ferroelectric domain patterning. Moreover, electrical conduction is shown to arise at domain walls in otherwise insulating lead zirconate titanate, the first such observation outside of multiferroic bismuth ferrite, due to the tendency of the walls to localize defects. The role of defects is then explored in the theoretical framework of disordered elastic interfaces possessing a characteristic roughness scaling and complex dynamic response. It is shown that the heterogeneous disorder landscape in ferroelectric thin films leads to a breakdown of the usual self-affine roughness, possibly related to strong pinning at individual defects. Finally, the roles of varying environmental conditions and defect densities in domain switching are explored, and shown to be adequately modelled as a competition between screening effects and pinning
Analysis nanotechnologie
nanotechnology
oppervlakteverschijnselen
surface phenomena
spectroscopie
spectroscopy
microscopie
microscopy
oppervlakten
surfaces
grensvlak
interface
fysica
physics
optische instrumenten
optical instruments
optica
optics
Physics (General)
Fysica (algemeen)
Notes Ph. D. University of Geneva. 2014
Bibliography Includes bibliographical references
Notes Print version record
Subject Lead zirconate titanate.
Domain structure.
Ferroelectric crystals.
Ferroelectric thin films.
Atomic force microscopy.
SCIENCE -- Physics -- Magnetism.
Physique.
Astronomie.
Atomic force microscopy
Domain structure
Ferroelectric crystals
Ferroelectric thin films
Lead zirconate titanate
Genre/Form dissertations.
doctoral dissertations.
masters theses.
theses.
Academic theses
Academic theses.
Thèses et écrits académiques.
Form Electronic book
ISBN 9783319057507
3319057502