Fundamental Physics of Ferroelectrics 2002: Washington, DC 3-6 February 2002
Ronald E. Cohen
American Inst. of Physics, Aug 14, 2002 - Science - 313 pages
This workshop continues an annual series held since 1990 covering the fundamental understanding of ferroelectrics and piezoelectrics using first-principles theory and experiments. Of particular interest this year are the new high strain single crystal piezoelectrics, superlattices, and complex solid solutions. Also this year is growing interest in understanding dynamical properties of relaxors, using theory and experiment, particularly inelastic neutron scattering.
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BandEdge States and Optical Properties of Ordered PbZr0jTi0JO3
Development of a Shell Model Potential for Molecular Dynamics
EffectiveHamiltonian Modeling of External Pressures
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2002 American Institute atomic average band behavior Bellaiche bond BTO/STO superlattice calculations cation ceramics computed configuration corresponding cubic phase density dielectric constant dielectric permittivity diffraction diffuse scattering dipole direction displacements distortion domain walls edited by R. E. effective elastic electric field electromechanical electronic energy experimental ferroelastic ferroelectric ferroelectric phase Ferroelectrics 2002 FIGURE first-principles frequency function Fundamental Physics Hamiltonian instability interactions ions lattice constant layer Lett macroscopic measured molecule monoclinic observed obtained octahedra optical order parameter paraelectric peak permittivity perovskite phase transition phonon Phys Physics of Ferroelectrics piezoelectric plane polarization properties pseudopotentials PZN-PT R. E. Cohen Raman ReaxFF relaxation relaxor rhombohedral rhombohedral phase rotation Shirane simulations single crystal soft mode solid solutions stacking periodicity strain structure substrate supercell superlattice surface symmetry temperature dependence tensor tetragonal tetragonal phase transition temperature unit cell Vanderbilt x-ray zero