2000
DOI: 10.1143/jpsj.69.267
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Temperature Dependences of Dielectric, Elastic and Piezoelectric Properties of KIO3Single Crystals Associated with the Successive Phase Transitions

Abstract: Pottasium iodate, KIO 3 , belongs to the perovskite structure and undergoes successive phase transitions at T 1 = 212 • C, T 2 = 72.5 • C, T 3 = −15 • C, T 4 = −160 • C and T 5 = −240 • C, respectively. The temperature dependences of the dielectric, elastic and piezoelectic properties have been measured in the temperature range from −263 • C to 330 • C. The superionic conductivity was found in the temperature range above T 2 . Pronounced dielectric dispersions in the frequency range below 10 kHz were observed … Show more

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Cited by 15 publications
(7 citation statements)
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“…In addition, one should notice that the anomalous behavior appears in the DW factor for the PDFs of I-O(2) and I-I around 50 K that is near the phase transition temperature, TV VI 33 K. The phase transition at TV VI is considered as a glass transition whose transition temperature is diffused over the wide temperature range. Therefore, the anomaly in the DW factor should be contributed from the glass transition at TV VI, associated with the reorientational freezing of IO 3 molecules revealed from the dielectric measurements (Maeda et al, 2000). The reorientational freezing of IO 3 molecules is expected to increase the spatial correlation between the neighboring IO 3 molecules, which causes the decrease in the DW factor.…”
Section: Figurementioning
confidence: 94%
See 1 more Smart Citation
“…In addition, one should notice that the anomalous behavior appears in the DW factor for the PDFs of I-O(2) and I-I around 50 K that is near the phase transition temperature, TV VI 33 K. The phase transition at TV VI is considered as a glass transition whose transition temperature is diffused over the wide temperature range. Therefore, the anomaly in the DW factor should be contributed from the glass transition at TV VI, associated with the reorientational freezing of IO 3 molecules revealed from the dielectric measurements (Maeda et al, 2000). The reorientational freezing of IO 3 molecules is expected to increase the spatial correlation between the neighboring IO 3 molecules, which causes the decrease in the DW factor.…”
Section: Figurementioning
confidence: 94%
“…In order to understand the mechanism of the phase transitions, we need to clarify structural changes on them. Recently, Maeda et al (2000) have intensively studied the dielectric, elastic and piezoelectric properties of KIO3, and reported the nature of orientational glass transitions at TIV V and TV VI. We also have investigated the phase transitions using X-ray diffraction and EXAFS measurements to obtain additional structural information.…”
Section: Introductionmentioning
confidence: 99%
“…At temperature increase the symmetry changes in the sequence triclinic III 345.6 K monoclinic II 485 K trigonal I. The existence of these three phases is confirmed by studies investigating the temperature evolution of physical properties such as nuclear quadrupole resonance, Raman spectroscopy, pyroelectricity, birefringence, dielectric, elastic and piezoelectric properties [1,[7][8][9][10].…”
Section: Introductionmentioning
confidence: 94%
“…Согласно недавним исследованиям [12], KIO 3 является несобственным сегнетоэлектриком, который претерпевает пять фазовых переходов при температурах около 485 K (из фазы I в фазу II), 345.5 K (из фазы II в фазу III), 258 K (при охлаждении) / 263 K (при нагреве) (из фазы III в фазу IV), 113 K (из фазы IV в фазу V) и при 33 K (из фазы V в фазу VI). Кроме того, наблюдается аномалия при температуре 428 ± 2 K, соответствующая изменению типа проводимости и не относящаяся к структурному фазовому переходу [13].…”
Section: образцы и методика экспериментаunclassified
“…Кристалл KIO 3 в фазе I обладает ромбоэдрической структурой с симметрией R3m и является сегнетоэлектриком с полярной исходной фазой [14]. Моноклинная фаза II обладает симметрией Pm и триклинная фаза III -симметрией P1 [12]. Низкотемпературные фазы KIO 3 также имеют триклинную структуру, а переходы III-IV и IV-V связаны лишь с незначительными изменениями в расположении атомов [12,15].…”
Section: образцы и методика экспериментаunclassified