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Coupling ferroelectric

Fig. 3.3 Domains and depolarization field in weak (a) and strong (b) coupled ferroelectric layers in a FE/PE superlattice close to Tc... Fig. 3.3 Domains and depolarization field in weak (a) and strong (b) coupled ferroelectric layers in a FE/PE superlattice close to Tc...
The new chiral terms are of first order and therefore describe spontaneous deformations. The Dj term means that there is a tendency for the c-vector to bend in the plane of the layer, which means that a coupled ferroelectric polarization (see next chapter) will have a tendency for a spontaneous splay. The D3 term is a spontaneous twist, describing the helical order of the SmC ground state. In the ground state, there is a pure twist in c. This means that c-Vxc = -q, and consequently,/c Vxc = 0. This reduces (4.60) near the equilibrium to ... [Pg.128]

In the single-domain state, many ferroelectric crystals also exhibit high optical nonlinearity and this, coupled with the large standing optical anisotropies (birefringences) that are often available, makes the ferroelectrics interesting candidates for phase-matched optical second harmonic generation (SHG). [Pg.203]

The contrast in knowledge is a result of the degree of complexity of materials properties elastic piezoelectric solids have perhaps the least complex behaviors, whereas ferroelectric solids have perhaps the most complex mechanical and electrical behaviors of any solid under shock compression. This complexity is further compounded by the strong coupling between electrical and mechanical states. Unfortunately, much of the work studying ferroelectrics appears to have underestimated the difficulty, and it has not been possible to carry out careful, long range, systematic efforts required to develop an improved picture. [Pg.113]

From the mechanical viewpoint, ferroelectrics exhibit unsteady, evolving waves at low stresses. Waves typical of well defined mechanical yielding are not observed. Such behavior is sensitive to the electrical boundary conditions, indicating that electromechanical coupling has a strong influence. Without representative mechanical behavior, it is not possible to quantitatively define the stress and volume compression states exciting a particular electrical response. [Pg.113]

Studies of the electrical and mechanical responses of ferroelectric solids under shock compression show this technical problem to be the most complex of any investigated. The combination of rate-dependent mechanical and electrical processes along with strong electromechanical coupling has clouded physical interpretation of the numerous investigations. [Pg.137]

Other more exotic types of calamitic liquid crystal molecules include those having chiral components. This molecular modification leads to the formation of chiral nematic phases in which the director adopts a natural helical twist which may range from sub-micron to macroscopic length scales. Chirality coupled with smectic ordering may also lead to the formation of ferroelectric phases [20]. [Pg.7]

In the operation of ferroelectric liquid crystal devices, the applied electric field couples directly to the spontaneous polarisation Ps and response times depend on the magnitude E Ps. Depending on the electronic structure (magnitude and direction of the dipole moment as well as position and polarity of the chiral species) and ordering of the molecules P can vary over several orders of magnitude (3 to 1.2 x 10 ), giving response times in the range 1-100 ps. [Pg.14]

Egami T (2005) Electron-Phonon Coupling in High-Tc Superconductors 114 267-286 Egami T (2007) Local Structure and Dynamics of Ferroelectric Solids. 124 69-88 Eisenstein O, see Clot E (2004) 113 1-36... [Pg.220]

Mclnnes EJL (2006) Spectroscopy of Single-Molecule Magnets. 122 69-102 Merunka D, Rakvin B (2007) Anharmonic and Quantum Effects in KDP-Type Ferroelectrics Modified Strong Dipole-Proton Coupling Model. 124 149-198 Meshri DT, see Singh RP (2007) 125 35-83... [Pg.223]

One of the applications of TRXRD is to study complex systems where electric fields couple to multiple degrees of freedom. Though femtosecond laser pulses can generate THz radiation from ferroelectric LiTa03, the corresponding lattice motion remained undetected by optical measurements. Cavalleri and coworkers demonstrated the coherent modulation of the X-ray intensity at 1.5 THz [10], and assigned it as phonon-polariton mode of A symmetry (Fig. 3.3). Nakamura and coworkers detected the coherent LO phonon of CdTe... [Pg.49]

The data have been analyzed within the described coupled double-well model. The protons are represented by pseudospins whereas the C4O4 unit displays highly nonlinear polarizability effects, which are taken into account within the framework of the nonlinear polarizability model [17,20]. As compared to KDP-type ferroelectrics the model is less complex [26,27] since the... [Pg.17]

In a recent letter the first NMR observation of quadrupole coupling induced Ti and Ti satellites in the cubic phase of an ultrapure BaTiOs single crystal above the ferroelectric transition was presented [8]. [Pg.53]

In addition, many of the ferroelectric solids are mixed ions systems, or alloys, for which local disorder influences the properties. The effect of disorder is most pronounced in the relaxor ferroelectrics, which show glassy ferroelectric behavior with diffuse phase transition [1]. In this chapter we focus on the effect of local disorder on the ferroelectric solids including the relaxor ferroelectrics. As the means of studying the local structure and dynamics we rely mainly on neutron scattering methods coupled with the real-space pair-density function (PDF) analysis. [Pg.70]

The concept of quantum ferroelectricity was first proposed by Schneider and coworkers [1,2] and Opperman and Thomas [3]. Shortly thereafter, quantum paraelectricity was confirmed by researchers in Switzerland [4], The real part of the dielectric susceptibihty of KTO and STO, which are known as incipient ferroelectric compounds, increases when temperature decreases and becomes saturated at low temperature. Both of these materials are known to have ferroelectric soft modes. However, the ferroelectric phase transition is impeded due to the lattice s zero point vibration. These materials are therefore called quantum paraelectrics, or quantum ferroelectrics if quantum paraelectrics are turned into ferroelectrics by an external field or elemental substitution. It is well known that commercially available single crystal contains many defects, which can include a dipolar center in the crystal. These dipolar entities can play a certain role in STO. The polar nanoregion (PNR originally called the polar microregion) may originate from the coupling of the dipolar entities with the lattice [5-7]. When STO is uniaxially pressed, it turns into ferroelectrics [7]. [Pg.90]

See other pages where Coupling ferroelectric is mentioned: [Pg.129]    [Pg.2021]    [Pg.2038]    [Pg.129]    [Pg.2021]    [Pg.2038]    [Pg.2563]    [Pg.203]    [Pg.343]    [Pg.104]    [Pg.30]    [Pg.458]    [Pg.470]    [Pg.145]    [Pg.514]    [Pg.4]    [Pg.9]    [Pg.9]    [Pg.20]    [Pg.34]    [Pg.53]    [Pg.149]    [Pg.151]    [Pg.162]    [Pg.165]    [Pg.166]    [Pg.167]    [Pg.227]    [Pg.98]    [Pg.732]    [Pg.81]    [Pg.111]   
See also in sourсe #XX -- [ Pg.81 ]



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