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RESEARCH PRODUCT
Trap spectroscopy and tunnelling luminescence in feldspars
I. TaleR. VisocekasA. ZinkV. Talesubject
RadiationPhotoluminescenceMicroclineChemistryAnalytical chemistryMineralogyengineering.materialSanidineThermoluminescenceAfterglowengineeringLuminescenceInstrumentationAlkali feldsparQuantum tunnellingdescription
Abstract Comparative studies of tunnel luminescence, thermally stimulated luminescence (TSL), and trap energy spectra by the fractional glow technique (FGT) have been made both with sanidine and microcline feldspars. After X-irradiation at LNT these feldspars show intense tunnelling afterglow. As the temperature is raised, several TSL glow peaks may be observed, starting at 135 K. An intense peak at 250 K is common to all four investigated microclines. In samples of sanidine, tunnelling afterglow overcomes TSL up to 250–260 K. With sanidine and microcline samples, the distributions of trap activation energies vs temperature obtained by the FGT are continuous and quasi-linear. Maxima in the trap density are observed, indicating the presence of several kinds of stable defect structures. It may be concluded that below 100 K the thermally stimulated processes in the samples are frozen. Tunnelling recombination occurs between deeper localized states which are stable up to RT and higher. These results are attributed to the known ‘Al-Si order–disorder’ effect in feldspar crystals. It leads to the formation of wide continuous energy distributions of localized states. Donor–acceptor defects are caused by the association of Al 3+ substituted in the centers of SiO 4 tetrahedra and alkali ions in interstitial positions.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1998-05-01 | Radiation Measurements |