Ferroelectric Phenomena in Crystals

Strukov, B. A.; Levanyuk, A. P.

doi:10.1007/978-3-642-60293-1

Cited by 562 publications

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“…The / s P z ∂ ∂ value changes with temperature inside the incommensurate phase [26]. For instance, for the 2 2 6 Sn P Se crystals this fact is directly confirmed by the X-ray structural studies [26]. As a consequence, we can consider the parameters 0 α ′ and 0 E′ as dependent on temperature inside the incommensurate phase.…”

Section: Fundamental Absorption Edge and The Urbach Rulementioning

confidence: 58%

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Optical properties of A2B2C6 ferroelectrics-semiconductors: the effect of temperature and hydrostatic pressure

Герзанич¹

2008

Ukr. J. Phys. Opt.

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In this review the results of experimental studies for the influence of temperature and high pressure on the fundamental absorption edge, optical birefringence and vibrational spectra of IV V VI 2 2 6A B C -group crystals are presented. It is revealed that the high-energy part of the absorption edge is described by the Urbach rule, while its low-energy part is formed by indirect optical transitions. Violation of the Urbach rule is detected in the region of incommensurate phase. The temperature and baric coefficients of the forbidden gap in the ferroelectric, paraelectric and incommensurate phases are found to be negative. Electronphonon interaction plays a major part in the temperature changes of the bandgap. According to the theory, the bandgap suffers characteristic anomalies that depend upon the phase transition order. The critical indices of the order parameter and heat capacity and the Landau-Ginzburg expansion coefficients derived from the baric studies of optical birefringence agree well with a presence of Lifshitz point at the р,Т-diagrams of the crystals under test. Relative shift in the frequencies of the Raman spectra occurring under mechanical stresses testifies a notable nonequivalence of atomic bonds and a possibility of dividing the vibrations in Sn 2 P 2 S 6 into the external and internal ones. The results of baric investigations of the Raman spectra show that the structural transformation in Sn 2 P 2 S 6 is mainly linked to Sn-S bonds. The results analysed by us testify a possibility for practical applications of Sn 2 P 2 S 6 ferroelectrics as a converter of coherent long-wave radiation into shorter-wave one.

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Section: Fundamental Absorption Edge and The Urbach Rulementioning

confidence: 58%

“…The 0 α , 0 E and σ values correspond to the paraelectric phase ( 0 s P = ). The / s P z ∂ ∂ value changes with temperature inside the incommensurate phase [26]. For instance, for the 2 2 6 Sn P Se crystals this fact is directly confirmed by the X-ray structural studies [26].…”

Section: Fundamental Absorption Edge and The Urbach Rulementioning

confidence: 69%

Optical properties of A2B2C6 ferroelectrics-semiconductors: the effect of temperature and hydrostatic pressure

Герзанич¹

2008

Ukr. J. Phys. Opt.

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“…This chapter introduces the fundamental physics and concepts of dielectrics [30][31][32][33][34][35][36][37][38][39] and their classification [38][39][40][41][42][43][44][45][46] , as well as of ferroelectrics 2,16,29,[37][38][39][40][41][42][43][44][45][46][47][48][49][50] , and relaxor ferroelectrics. [51][52][53][54][55][56][57] The information of many textbooks and review papers related to the physics of materials science was employed throughout these sections.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…This indicates a more pronounced decrease of the free energy anisotropy and enhanced properties. 39,159,192,193 It was pointed out that maximizing the number of coexisting phases near multicritical points leads to increased entropy and thus higher enhancement of electromechanical properties. 192 Point in Figure 2.16 exemplifies both a triple point and critical point, since a first order phase transition (solid line) leads to a second order phase transition (dashed line) as the temperature is increased.…”

Section: Electromechanical Enhancements In Ferroelectricsmentioning

confidence: 99%

“…A tricritical point, refers to the point where, at a fixed composition, the lines of critical points in the temperature-electric field-pressure phase diagram converge. 39 Therefore, their experimental determination is quite difficult. 156 The coincidence of a tricritical point with a triple point such as the one marked with in Figure 2.16, will only occur in the hypothetical case that the critical points in the temperature-electric field and electric field-pressure phase diagrams intersect at the same temperature-composition coordinates of the triple point (at zero electric field and atmospheric pressure).…”

Section: Electromechanical Enhancements In Ferroelectricsmentioning

confidence: 99%

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Strain Mechanisms in Lead-Free Ferroelectrics for Actuators

Acosta

2016

Springer Theses

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Anomalous Larmour Frequency Dependence of Proton Spin-Lattice Relaxation Time (T1) in the Ferroelectric Glycine Phosphite

Ramaswamy

Ramesh

Ramakrishna

2001

phys. stat. sol. (b)

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We report here the results of our 1 H NMR spin-lattice relaxation time (T 1 ) studies in glycine phosphite which is ferroelectric below 224 K. The experiments have been carried out in the temperature range from 200 to 419 K and at two Larmour frequencies of 11.40 and 23.56 MHz. We have noticed a Larmour frequency dependence of T 1 on the high-temperature side of the T 1 minimum. A model is proposed based on the BPP theory to explain the observation.

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Ferroelectric Phenomena in Crystals

Cited by 562 publications

References 0 publications

Optical properties of A2B2C6 ferroelectrics-semiconductors: the effect of temperature and hydrostatic pressure

Optical properties of A2B2C6 ferroelectrics-semiconductors: the effect of temperature and hydrostatic pressure

Strain Mechanisms in Lead-Free Ferroelectrics for Actuators

Anomalous Larmour Frequency Dependence of Proton Spin-Lattice Relaxation Time (T1) in the Ferroelectric Glycine Phosphite

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