Polarized Raman spectra of Cs5H3(SO4)4· H2O single crystals

Yuzyuk, Yu. I.; Dmitriev, Vladimir; Loshkarev, V. V.; Rabkin, L. M.; Shuvalov, L. A.

doi:10.1080/00150199508007719

Cited by 26 publications

(15 citation statements)

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“…A pronounced increase in damping of basal plane phonons sets in near 320 K, while the onset of similar behavior for the phonons with q ph k C 6 does not occur until 350 K. Above 360 K, we could not detect the Brillouin component in the light scattering spectra. A similar behavior was observed in Raman scattering experiments, where the background and quasielastic scattering contribution increased sharply in the vicinity of T 360 K [9], indicating significant changes in the light scattering conditions in the crystal (formation of cracks, inhomogeneities, etc.). In Ref.…”

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confidence: 78%

“…At room temperature, the PCHS crystals belong to the hexagonal system with space group P6 3 ͞mmc (a 6.2455 Å, c 29.690 Å; V 1003 Å 3 ; Z 2) [7]. Events of particular interest occur in the vicinity of T c1 414 K and T c2 360 K. At T c1 , a superprotonic phase transition is accompanied by a symmetry change P6͞mmm , P6 3 ͞mmc [7,8], and at T c2 an isostructural phase transition takes place, associated with changes in the local symmetry of SO 4 tetrahedra [9][10][11]. No other anomalies associated with structural changes in protonic samples were observed.…”

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confidence: 99%

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Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4
Lushnikov¹,
Gvasaliya²,
Fedoseev³
et al. 2001
Phys. Rev. Lett.
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We describe damping of hypersonic and ultrasonic longitudinal acoustic (LA) phonons in crystals of Cs 5H (3)(SO (4))(4);xH 2O (PCHS) between 100 and 360 K. The damping of LA phonons exhibits strong dispersion caused by relaxation processes in the region of transformation into the glasslike phase (T(g) approximately 260 K). Near T(g) the damping of ultrasonic phonons propagating in the basal plane reflects the cooperative freezing of acid protons. The damping of LA phonons propagating perpendicular to the basal plane can be fit by the Debye model and is due to the interaction between protons and LA phonons. This suggests that the proton glass state that is realized at T

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confidence: 78%

mentioning

confidence: 99%

Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4
Lushnikov¹,
Gvasaliya²,
Fedoseev³
et al. 2001
Phys. Rev. Lett.
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“…On the other hand, the Cs 5 H 3 (SO 4 ) 4 ·xH 2 O crystal undergoes two successive phase transitions, which the symmetry changes from hexagonal (space group P6 3 /mmc, phase II) to hexagonal (space group P6/mmm, phase I) at 414 K, and a glass-like state is realized at below 260 K [8][9][10][11][12][13]. But the structure of this crystal in phase I has not been determined yet.…”

Section: Introductionmentioning

confidence: 99%

Studies of structure, thermal, and electrical properties for Cs 5 H 3 (SO 4 ) 4 crystal

Fukami

Jin

Chen

2006

Ionics

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Electrical conductivity, differential scanning calorimetry, and X-ray diffraction measurements were performed on a pentacesium trihydrogen tetrasulfate, Cs 5 H 3 (SO 4 ) 4 , crystal. The transition entropy at a superionic phase transition and the activation energy of proton migrations in the superionic phase were determined to be 58.2 J K −1 mol −1 and 0.48 eV, respectively. The crystal structure of Cs 5 H 3 (SO 4 ) 4 at room temperature was refined. The electrical conduction in Cs 5 H 3 (SO 4 ) 4 was discussed with the refined structure.

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“…The properties of PCTS crystals have been widely studied. For instance, their structure was analyzed by X-ray diffraction [1,3], the conductivity mechanism was studied by dielectric measurements [1,4], neutron scattering [5] and NMR spectroscopy [6], and the vibration spectrum was investigated by IR, Raman, Brillouin and neutron scattering in a wide temperature range [7][8][9][10]. Nevertheless, the sequence of phase transitions is still unclear.…”

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confidence: 99%

Brillouin light scattering anomalies and new phase transition in Cs5H3(SO4)4 crystals

Lushnikov

Schmidt

Shuvalov

et al. 2000

Solid State Communications

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The behavior of hypersonic longitudinal acoustic phonons at temperatures ranging from 290 to 370 K in a crystal of Cs 5 H 3 (SO 4) 4 •nH 2 O was studied by Brillouin light scattering. Anomalies in the temperature dependences of the frequency shift and spectral width of the Brillouin components in the vicinity of T Ϸ 360 K were observed. We found a "point of isotropization" near 360 K where C 11 Ϸ C 33 Ϸ 2:6 × 10 10 N=m 2 : We attribute it to an isostructural phase transition from P6 3 =mmc D P6 3 =mmc where the apparent acoustic symmetry changes from hexagonal to cubic. Possible models for the phase transition have been discussed.

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Polarized Raman spectra of Cs5H3(SO4)4· H2O single crystals

Cited by 26 publications

References 1 publication

Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4
Lushnikov¹,
Gvasaliya²,
Fedoseev³
et al. 2001
Phys. Rev. Lett.
Self Cite
5
0
0
0
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Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4
Lushnikov¹,
Gvasaliya²,
Fedoseev³
et al. 2001
Phys. Rev. Lett.
Self Cite
5
0
0
0
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Studies of structure, thermal, and electrical properties for Cs 5 H 3 (SO 4 ) 4 crystal

Brillouin light scattering anomalies and new phase transition in Cs5H3(SO4)4 crystals

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Polarized Raman spectra of Cs5H3(SO4)4· H2O single crystals

Cited by 26 publications

References 1 publication

Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4Lushnikov1, Gvasaliya2, Fedoseev3 et al. 2001Phys. Rev. Lett.Self Cite5000View full textAdd to dashboardCite

Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4Lushnikov1, Gvasaliya2, Fedoseev3 et al. 2001Phys. Rev. Lett.Self Cite5000View full textAdd to dashboardCite

Studies of structure, thermal, and electrical properties for Cs 5 H 3 (SO 4 ) 4 crystal

Brillouin light scattering anomalies and new phase transition in Cs5H3(SO4)4 crystals

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Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4
Lushnikov¹,
Gvasaliya²,
Fedoseev³
et al. 2001
Phys. Rev. Lett.
Self Cite
5
0
0
0
View full text Add to dashboard Cite

Evidence for a Quasi-Two-Dimensional Proton Glass State inCs5H3(SO4
Lushnikov¹,
Gvasaliya²,
Fedoseev³
et al. 2001
Phys. Rev. Lett.
Self Cite
5
0
0
0
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