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Ferroelectric Domain Breakdown: Application to Nanodomain Technology
Gil Rosenman
*
, A. Agronin
, D. Dahan
, M. Shvebelman
, E. Weinbrandt
, M. Molotskii
,
Y. Rosenwaks
*
Corresponding author for this work
Department of Electrical Engineering - Physical Eng.
Tel Aviv University
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
›
peer-review
1
Scopus citations
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Keyphrases
Nanodomains
100%
Ferroelectric Domains
100%
Ferroelectric Crystal
44%
Bulk Crystal
44%
Physical Mechanism
22%
Atomic Force Microscopy
22%
Tip Array
22%
Polarization Reversal
22%
Breakdown Phenomena
22%
Dielectric Permittivity
11%
Downscaling
11%
High Ratio
11%
Physical Size
11%
Grating
11%
Lateral Domain
11%
Low Density
11%
Domain Walls
11%
Nanometer Scale
11%
Refractive Index
11%
Electro-optic
11%
High Voltage Electric Field
11%
Surface Energy
11%
Nonlinear Optical Properties
11%
Lithium Niobate
11%
Photonic Devices
11%
Microelectronics
11%
Electronic Devices
11%
Shape Invariant
11%
Dielectric Layer
11%
Nanoscale Engineering
11%
Domain Shape
11%
LiNbO3 Crystal
11%
Domain Reversal
11%
Nanometer Size
11%
Superlattices
11%
Technological Requirements
11%
Wall Surfaces
11%
Nanometre
11%
Electron Charge
11%
Material Development
11%
Spontaneous Polarization
11%
Switching Voltage
11%
Electrode Lead
11%
Regular Domain
11%
Amorphous Dielectric
11%
Nanoscale Features
11%
High Energy Electron Beam
11%
Reversal Procedure
11%
Engineering
Ferroelectric Crystal
100%
Bulk Crystal
100%
Nanometre
75%
Atomic Force Microscopy
50%
Dielectrics
25%
Experimental Result
25%
Physical Size
25%
Engineering
25%
Refractive Index
25%
Nanoscale
25%
Microelectronics
25%
Optoelectronics
25%
Piezoelectric
25%
Figure of Merit
25%
Dielectric Layer
25%
Domain Wall
25%
Energy Electron
25%
Photonic Devices
25%
Spontaneous Polarization
25%
Electric Field
25%
Interfacial Energy
25%
Superlattice
25%
Refractivity
25%
Material Science
Ferroelectric Material
100%
Atomic Force Microscopy
20%
Density
10%
Permittivity
10%
Refractive Index
10%
Surface Energy
10%
Optical Property
10%
Optical Device
10%
Domain Wall
10%
Piezoelectricity
10%
Superlattice
10%
Dielectric Material
10%