(4)A(2)) of the Cr3+ impurity centres were studied in SrTiO3 (STO), Sr0.99Mg0.01TiO3 (SMT) and SrTi0.99Mg0.01O3 (STM) ceramics. In STO, epsilon increases on cooling revealing a weak dispersion in the 100 Hz-1 MHz region at low temperatures. SMT shows nearly the same behaviour. In STM the low-frequency permittivity reveals a wide maximum at similar to36 K with pronounced relaxation-type dispersion. However, in the THz region no epsilon' (T) anomaly was found in all the materials under study. All the compositions studied-STO, SMT and STM demonstrate large "dielectric-related" temperature shift of Cr3+ R-emission line but this shift seems to be associated not only with TO1 soft mode but also with the relaxation process."/> (4)A(2)) of the Cr3+ impurity centres were studied in SrTiO3 (STO), Sr0.99Mg0.01TiO3 (SMT) and SrTi0.99Mg0.01O3 (STM) ceramics. In STO, epsilon increases on cooling revealing a weak dispersion in the 100 Hz-1 MHz region at low temperatures. SMT shows nearly the same behaviour. In STM the low-frequency permittivity reveals a wide maximum at similar to36 K with pronounced relaxation-type dispersion. However, in the THz region no epsilon' (T) anomaly was found in all the materials under study. All the compositions studied-STO, SMT and STM demonstrate large "dielectric-related" temperature shift of Cr3+ R-emission line but this shift seems to be associated not only with TO1 soft mode but also with the relaxation process."/> (4)A(2)) of the Cr3+ impurity centres were studied in SrTiO3 (STO), Sr0.99Mg0.01TiO3 (SMT) and SrTi0.99Mg0.01O3 (STM) ceramics. In STO, epsilon increases on cooling revealing a weak dispersion in the 100 Hz-1 MHz region at low temperatures. SMT shows nearly the same behaviour. In STM the low-frequency permittivity reveals a wide maximum at similar to36 K with pronounced relaxation-type dispersion. However, in the THz region no epsilon' (T) anomaly was found in all the materials under study. All the compositions studied-STO, SMT and STM demonstrate large "dielectric-related" temperature shift of Cr3+ R-emission line but this shift seems to be associated not only with TO1 soft mode but also with the relaxation process.">

Dielectric permittivity and Cr3+ impurity luminescence of Sr0.99M0.01TiO3 and SrTi0.99Mg0.01O3

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abstract

Dielectric permittivity epsilon' and a "dielectric-related" temperature shift of the R-emission line (E-2-->(4)A(2)) of the Cr3+ impurity centres were studied in SrTiO3 (STO), Sr0.99Mg0.01TiO3 (SMT) and SrTi0.99Mg0.01O3 (STM) ceramics. In STO, epsilon increases on cooling revealing a weak dispersion in the 100 Hz-1 MHz region at low temperatures. SMT shows nearly the same behaviour. In STM the low-frequency permittivity reveals a wide maximum at similar to36 K with pronounced relaxation-type dispersion. However, in the THz region no epsilon' (T) anomaly was found in all the materials under study. All the compositions studied-STO, SMT and STM demonstrate large "dielectric-related" temperature shift of Cr3+ R-emission line but this shift seems to be associated not only with TO1 soft mode but also with the relaxation process.

keywords

SPECTROSCOPY

subject category

Materials Science; Physics

authors

Trepakov, VA; Savinov, ME; Kudyk, IB; Pashkin, A; Kapphan, SE; Vilarinho, PM; Tkach, A; Kholkin, AL; Jastrabik, L

our authors

foto Andrei Kholkin

Andrei Kholkin

Research Coordinator
foto Oleksandr Tkach

Oleksandr Tkach

Researcher
foto Paula Maria Lousada Silveirinha Vilarinho

Paula Maria Lousada Silveirinha Vilarinho

Vice Director

Groups

2 - Multifunctional Ferroic Ceramics and Nanostructures

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Publication Details

type
Journal Article
year
2003
journal
FERROELECTRICS
volume
294
publisher
TAYLOR & FRANCIS LTD
issn
0015-0193
digital object identifier
10.1080/00150190390238946
web of science article identifier
WOS:000186527000024

Journal Metrics (JCR 2019)

Journal Impact Factor
0.669
Journal Impact Factor (5 yrs)
0.718
category normalized journal percentile
9.089

Citations

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