Ferroelastic phase transition of bivo4studied by51v nmr
- 1 June 1989
- journal article
- research article
- Published by Taylor & Francis in Ferroelectrics
- Vol. 94 (1) , 389-394
- https://doi.org/10.1080/00150198908014285
Abstract
Nuclear magnetic resonance (NMR) of 51V in the ferroelastic BiVO4 single crystals has been investigated at a fixed frequency of 6 MHz up to 533 K just above its Curie temperature, Tc = 528 K. The seven resonance lines of 51V(I = 7/2) due to the quadrupole interaction were measured in the three mutually perpendicular crystal planes. While the quadrupole coupling constant (e2qQ/h) is found to be staying nearly the same, whereas the asymmetry parameter (η) is decreased with the increasing temperature. Above Tc, e2qQ/h = 5.031 MHz, and η = 0 were obtained at T = 533 K and the principal Z axis of the electric field gradient tensor is along the crystallographic b axis, same as in the ferroelastic phase. These results are consistent with the phase transition from the monoclinic ferroelastic phase below Tc to the tetragonal paraelastic phase above Tc .Keywords
This publication has 10 references indexed in Scilit:
- Nuclear Magnetic Resonance of 51V in BiVO4 Single CrystalsJapanese Journal of Applied Physics, 1985
- Ferroelastic phase transition in BiVO4: III. ThermodynamicsJournal of Physics C: Solid State Physics, 1983
- Ferroelastic phase transition in BiVO4: V. Temperature dependence of Bi3+displacement and spontaneous strainsJournal of Physics C: Solid State Physics, 1983
- Crystal growth and structure of BiVO4Materials Research Bulletin, 1979
- The structure and ferroelastic phase transition of BiVO4Phase Transitions, 1979
- Mechanism of the ferroelastic transition of BiVO4Solid State Communications, 1979
- Ferroelasticity in BiVO4Solid State Communications, 1975
- Soft-modes in displacive transitionsJournal de Physique, 1971
- Pure Nuclear Quadrupole Spectra of Chlorine and Antimony Isotopes in SolidsPhysical Review B, 1955
- Zur Theorie der Spin-Gitterrelaxation in Molek lkristallenThe European Physical Journal A, 1951