Domains in Three-dimensional Ferroelectric Nanostructures: Theory and Experiment
Abstract
Ferroelectric random access memory cells (FeRAMs) have reached 450 x 400 nm production (0.18 micron2) at Samsung with lead zirconate-titanate (PZT), 0.13 micron2 at Matsushita with strontium bismuth tantalate (SBT), and comparable sizes at Fujitsu with BiFeO3. However, in order to increase storage density, the industry roadmap requires by 2010 that such planar devices be replaced with three-dimensional structures. Unfortunately, little is known yet about even such basic questions as the domain scaling of 3-d nanodevices, as opposed to 2-d thin films. Here we report the experimental measurement of nano-domains in ferroelectric nanocolumns, together with a theory of domain size in 3-d structures which explains the observations.
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