@article{b2c4ae2bba6a4f17a151d6d05ebda9b9,
title = "Dry annealing of radiation-damaged zircon: Single-crystal X-ray and Raman spectroscopy study",
abstract = "Structural reconstitution upon dry thermal annealing of mildly to strongly radiation-damaged, gem-quality zircon from Sri Lanka has been studied by single-crystal X-ray diffraction and Raman spectroscopy. Results of structure refinement of a strongly radiation-damaged zircon (sample GZ5, calculated alpha dose ~4 × 1018 g−1) indicate the existence of an interstitial oxygen site that is sparsely occupied (about 4% of all O atoms). Annealing of this sample at Ta (annealing temperature) = 700 °C has resulted in nearly complete recrystallization of its amorphous volume fraction and significant decrease in the occupation of O-interstitial sites. For all samples studied, annealing up to Ta ≤ 650–700 °C is characterised by preferred recovery of Raman shifts (compared to Raman FWHMs; full width at half band maximum) and extensive contraction of the unit-cell volume, in particular along unit-cell dimension a. This low-T annealing is dominated by epitaxial growth of the crystalline volume fraction at the expense of the amorphous volume fraction, and general recovery of low-energy defects. During annealing at Ta = 700–1400 °C there is preferred recovery of Raman FWHMs (compared to Raman shifts) and only mild unit-cell contraction. High-T annealing is dominated by the recovery of high-energy defects such as recombination of cation Frenkel pairs. Here, unit-cell parameter a shows a remarkable behaviour (namely, mild re-increase at Ta = 700–1150 °C and mild final shrinking at Ta = 1000–1400 °C), which is attributed to enhanced contortion of ZrO8 polyhedrons due to cation repulsion. The combined data set of Raman band and unit-cell parameter presented herein will help analysts to assign Raman spectra of annealed unknowns to certain recovery stages.",
keywords = "Annealing, Photoluminescence, Radiation damage, Raman spectroscopy, Single-crystal X-ray diffraction, Zircon",
author = "Martin Ende and {Chanmuang N.}, Chutimun and Reiners, {Peter W.} and Zamyatin, {Dmitry A.} and Gain, {Sarah E.M.} and Richard Wirth and Lutz Nasdala",
note = "Funding Information: Thanks are due to Wolfgang Hofmeister for providing gem-zircon specimens M127 and M257, and to E. Gamini Zoysa and Bhuwadol Wanthanachaisaeng for their help in testing and acquiring the GZ-series stones in the Sri Lankan gem market. Zircon sample G3 was provided by Allen K. Kennedy, and its dry annealing (chemical abrasion pre-treatment) was done by James M. Mattinson. Zircon sample R–5 was obtained by L.N. in Ratanakiri, Cambodia, during a field trip organised by Walter A. Balmer and Bhuwadol Wanthanachaisaeng, and guided by Votha Un (deceased). A synthetic, un-doped ZrSiO 4 crystal was provided by John M. Hanchar. Sample preparation was done by Andreas Wagner and Anja Schreiber. Gerald Giester helped in determining mass densities, and Uttam Chowdhury and Ursula Ginster assisted with the (U–Th)/He analyses. Scanning electron microscope images were kindly provided by Dieter Rhede and James M. Mattinson. L.N. acknowledges financial support by ASEA-Uninet (Cambodia field trip) and the Faculty of Geosciences, Geography and Astronomy, University of Vienna (Sri Lanka field trips). S.E.M.G. acknowledges the opportunity to use LA–ICP–MS instrumentation funded by the Australian Government , Department of Education, Science and Training (DEST) Systemic Infrastructure Grants , Australian Research Council (ARC) Linkage Infrastructure, Equipment and Facilities (LIEF) , Macquarie University and industry partners. D.A.Z. acknowledges analytical support by the `Geoanalyst´ Common Use Centre, Zavaritsky Institute of Geology and Geochemistry, Ural Branch, Russian Academy of Sciences, and financial support by the Ministry of Science and Higher Education of the Russian Federation (Moscow) , grant АААА-А19-119071090011-6 . Financial support for this research was provided by the Austrian Science Fund (FWF) through grant P24448-N19 to L.N. Publisher Copyright: {\textcopyright} 2021 The Authors",
year = "2021",
month = dec,
day = "15",
doi = "10.1016/j.lithos.2021.106523",
language = "English (US)",
volume = "406-407",
journal = "Lithos",
issn = "0024-4937",
publisher = "Elsevier",
}