Nuclear spin lattice relaxation in the amorphous state: Towards an understanding
Identifieur interne : 000388 ( France/Analysis ); précédent : 000387; suivant : 000389Nuclear spin lattice relaxation in the amorphous state: Towards an understanding
Auteurs : J. Szeftel [France] ; H. Alloul [France]Source :
- Journal of Non-Crystalline Solids [ 0022-3093 ] ; 1977.
Abstract
Full reports concerning the nuclear relaxation of 11B, 23Na, 29Si and 77Se in the following glasses: B2O3, Na2B4O7, (Na2O)0.3(SiO2)0.7, Se are presented. Extended measurements confirm the existence of an efficient quadrupolar mechanism typical of glasses and show that the two-phonon process, responsible for the quadropolar relaxation in insulating crystals, is always negligible in our whole range of investigation. The relaxation rate T1−1, field independent in almost all cases, varies like T(1+γ) with 0 < γ < 1 between 1.2 K and 100 K but exhibits different behaviour at higher T depending upon the analysed material. Whereas T1 goes through a minimum at 300 K in B2O3, its T-dependence for 23Na in Na2B4O7 and (Na2O)0.3(SiO2)0.7 becomes faster than in the low-T regime. Several attempts made to interpret the data within the framework of the tunneling model, commonly invoked to explain the anomalous thermal properties of glasses, are reviewed in detail. It is concluded that the T1 results are best accounted for by a process consisting of the modulation of the electric field gradient (EFG) at the nuclear site by its nearest neighbour tunneling defect. This EFG fluctuation is shown to be dominated by interactions between defects and an average correlation time of about 10−9 sec is assigned to it. A complete T1 calculation requires the previous knowledge of the physical nature of the defects, so far not available. Each defect is then tentatively identified with a bridging oxygen atom tunneling between two potential wells, which gives the correct energy dependence for the EEG matrix element. A defect number of 1027 m−3 is shown to be consistent with the results.
Url:
DOI: 10.1016/0022-3093(78)90149-7
Affiliations:
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ISTEX:52535934A9380D2F14294FC50455DC729D734E51Le document en format XML
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<front><div type="abstract" xml:lang="en">Full reports concerning the nuclear relaxation of 11B, 23Na, 29Si and 77Se in the following glasses: B2O3, Na2B4O7, (Na2O)0.3(SiO2)0.7, Se are presented. Extended measurements confirm the existence of an efficient quadrupolar mechanism typical of glasses and show that the two-phonon process, responsible for the quadropolar relaxation in insulating crystals, is always negligible in our whole range of investigation. The relaxation rate T1−1, field independent in almost all cases, varies like T(1+γ) with 0 < γ < 1 between 1.2 K and 100 K but exhibits different behaviour at higher T depending upon the analysed material. Whereas T1 goes through a minimum at 300 K in B2O3, its T-dependence for 23Na in Na2B4O7 and (Na2O)0.3(SiO2)0.7 becomes faster than in the low-T regime. Several attempts made to interpret the data within the framework of the tunneling model, commonly invoked to explain the anomalous thermal properties of glasses, are reviewed in detail. It is concluded that the T1 results are best accounted for by a process consisting of the modulation of the electric field gradient (EFG) at the nuclear site by its nearest neighbour tunneling defect. This EFG fluctuation is shown to be dominated by interactions between defects and an average correlation time of about 10−9 sec is assigned to it. A complete T1 calculation requires the previous knowledge of the physical nature of the defects, so far not available. Each defect is then tentatively identified with a bridging oxygen atom tunneling between two potential wells, which gives the correct energy dependence for the EEG matrix element. A defect number of 1027 m−3 is shown to be consistent with the results.</div>
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