Add to ORKGWe show that after long times (24 h), individual circular domains in 50 nm thick [0 0 1] epitaxial films of ferroelectric lead zirconate titanate (PZT) develop facets due to the crystalline anisotropy, e.g. along [1 0 0] directions. This appears to be a creep process (Tybell et al. 2002 Phys. Rev. Lett. 89 097601; Paruch et al. 2006 J. Appl. Phys. 100 051608) and was first seen in a nanoarray of 180° domains (Ganpule et al. 2002 Phys. Rev. B 65 014101). The effect is independent of polarity and thus rules out any electronic dependence on different work functions for top and bottom electrodes. The phenomenon is interpreted instead as a mechanical relaxation due to highly inhomogeneous stress distributions on the nanodisks, assumed to have st...
We report first-principle atomistic simulations of the effect of local strain gradients on the nanos...
Ferroelectric materials contain domains of ordered electric dipoles, separated by domain walls, that...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
We show that after long times (24 h), individual circular domains in 50 nm thick [0 0 1] epitaxial f...
We show that after long times (24 h), individual circular domains in 50 nm thick [001] epitaxial fi...
Using piezoresponse force microscopy on epitaxial ferroelectric thin films, we have measured the evo...
Understanding and controlling the motion, stability, and equilibrium configuration of ferroelectric ...
International audiencePhase separation is a cooperative process whose kinetics underpins the orderly...
peer reviewedObservation of a new type of nanoscale ferroelectric domains, termed as “bubble domains...
This work was supported by National Science Foundation Grant No. NSF-DMR-1334428 (P. Chandra).Using ...
We observe periodic faceting of 8-nm diameter ferroelectric disks on a 10s time-scale when thin Pb(Z...
Since the 1935 work of Landau and Lifshitz and of Kittel in 1946 all ferromagnetic, ferroelectric, a...
We investigated the dynamics and relaxation of 90° domains in 60-nm-thick lead-zirconium titanate (P...
Lead zirconate titanate is a ferroelectric material of considerable interest with a wide range of te...
With shrinking device sizes, controlling domain formation in nanoferroelectrics becomes crucial. Per...
We report first-principle atomistic simulations of the effect of local strain gradients on the nanos...
Ferroelectric materials contain domains of ordered electric dipoles, separated by domain walls, that...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
We show that after long times (24 h), individual circular domains in 50 nm thick [0 0 1] epitaxial f...
We show that after long times (24 h), individual circular domains in 50 nm thick [001] epitaxial fi...
Using piezoresponse force microscopy on epitaxial ferroelectric thin films, we have measured the evo...
Understanding and controlling the motion, stability, and equilibrium configuration of ferroelectric ...
International audiencePhase separation is a cooperative process whose kinetics underpins the orderly...
peer reviewedObservation of a new type of nanoscale ferroelectric domains, termed as “bubble domains...
This work was supported by National Science Foundation Grant No. NSF-DMR-1334428 (P. Chandra).Using ...
We observe periodic faceting of 8-nm diameter ferroelectric disks on a 10s time-scale when thin Pb(Z...
Since the 1935 work of Landau and Lifshitz and of Kittel in 1946 all ferromagnetic, ferroelectric, a...
We investigated the dynamics and relaxation of 90° domains in 60-nm-thick lead-zirconium titanate (P...
Lead zirconate titanate is a ferroelectric material of considerable interest with a wide range of te...
With shrinking device sizes, controlling domain formation in nanoferroelectrics becomes crucial. Per...
We report first-principle atomistic simulations of the effect of local strain gradients on the nanos...
Ferroelectric materials contain domains of ordered electric dipoles, separated by domain walls, that...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...