Crystal Structure Refinement and Mössbauer Spectroscopy of an Ordered, Triclinic Clinochlore

Smyth, Joseph R.; Dyar, M. D.; May, Howard M.; Bricker, Owen P.; Acker, James G.

doi:10.1346/ccmn.1997.0450406

Cited by 46 publications

(31 citation statements)

References 24 publications

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“…A representative sample of M26 glaucophanite (1 cm 3) was powdered with an agate mortar and a powder diffraction pattern was collected using Cu Kc~ radiation, from 5 ° to 70 °, in steps of 0.01 ° and 3 seconds per step. A quantitative phase analysis using the Rietveld method was performed using a richterite (Hawtorn et al 1997) and a clinochlore (Smyth et al 1981) as starting structural models. The atomic fractions were deduced from chemical analysis.…”

Section: Mineral Chemistry and Quantitative Diffraction Analysesmentioning

confidence: 99%

Quantitative texture analysis of glaucophanite deformed under eclogite facies conditions (Sesia-Lanzo Zone, Western Alps): comparison between X-ray and neutron diffraction analysis

Zucali

Chateigner

Dugnani

et al. 2002

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X-ray and neutron diffraction techniques have been applied to quantitative texture analysis of a glaucophanite from the Sesia-Lanzo Zone (Western Italian Alps), naturally deformed under eclogite fades conditions. The comparison has been carried out in order to reveal the limits and proNems of texture analysis related to strongly deformed polymineralic. Different methods of measuring and computing the orientation distribution function from diffraction data have been tested, in particular X-rays, direct peak integration, and neutron diffraction using Rietveld-texture analysis. Due to grain-size problems and heterogeneity of individual amphibole minerals, neutron radiation is shown to be the best probe for characterizing the whole rock: being more penetrative than conventional X-rays, a larger volume of the mineral aggregate is sampled, giving better statistics. However, results obtained by summing the corresponding individual spectra of at least three X-ray diffraction experiments on parallel slabs of the same specimen also give statistically valid, semiquantitative results that reproduce the overall textures. The quantitative texture analysis shows the strong texture of the two generations of amphiboles (AmpI and AmpII), which are mainly characterized by [001]*-directions at an angle of about l0 ° to the mineral lineation and by (hkO) planes describing girdles around the lineation. The texture is comparable to those described in the literature for amphibole deformed under different temperature and pressure conditions, and the pronounced asymmetry of the [001]* directions with respect to the mineral lineation is consistent with a non-coaxial component that occurs during the deformation.

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Section: Mineral Chemistry and Quantitative Diffraction Analysesmentioning

confidence: 99%

Quantitative texture analysis of glaucophanite deformed under eclogite facies conditions (Sesia-Lanzo Zone, Western Alps): comparison between X-ray and neutron diffraction analysis

Zucali

Chateigner

Dugnani

et al. 2002

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“…Interlayer bonding involves only hydrogen bonds; onethird of the atoms in chlorite are involved in hydrogen bonding, and it is this major structural feature that is the subject of the present study. The long-and short-range cation-ordering behavior of chlorites is now well understood from recent X-ray and spectroscopic studies (e.g., Rule and Bailey 1987;Welch et al 1995;Smyth et al 1997), which have shown that [6] Al is at M4 and [6] Mg is ordered at M3 (M3:M4 = 2:1). In end-member clinochlore, M1 and M2 sites of the 2:1 layer are filled by [6] Mg. A 29 Si MAS NMR study of synthetic monoclinic (C2/m) end-member clinochlore by Welch et al (1995) showed that there is a high degree of Al-Si short-range order within the tetrahedral sheet, as is also found in phlogopite and related micas (Herrero et al 1987;Circone et al 1991).…”

Section: Chlorite Structurementioning

confidence: 99%

High-pressure behavior of clinochlore

Welch

Marshall

2001

American Mineralogist

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The room-temperature bulk modulus of synthetic end-member clinochlore, Mg 5 AlSi 3 AlO 10 (OD) 8 , has been determined in the pressure range 0 to 6.5 GPa using neutron powder diffraction: K 0 = 75.4(2.7) GPa, K 0 ' = 4; K 0 = 72.3(2.4) GPa, K 0 ' = 5.4(1.0). A structural comparison is made with the related mineral brucite, Mg(OH) 2 . Clinochlore is a much stiffer structure than brucite (K 0 = 41 -47 GPa). Both minerals have very similar in-plane compressions of their polyhedral sheets and so their very different bulk moduli arise from different compressibilities normal to the structural layering. Rietveld refinements of neutron-diffraction data for clinochlore collected at 0, 1.2, 2.5, and 4.7 GPa reveal that compression normal to the layering is equally partitioned between the interlayer and the 2:1 layer; the octahedral sheets of the brucite-like and 2:1 layers are uncompressed to 4.7 GPa. Increasing pressure strengthens the H3(D3) … O3 hydrogen bond, which contracts linearly from 1.88(2) Å at 0 GPa to 1.77(2) Å at 4.7 GPa, possibly with a concomitant lengthening of the O6-H3(D3) hydroxyl bond from 1.05(2) Å to 1.10(2) Å over the same pressure range.

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“…in both studied crystals occurs in tetrahedral sites, but in purple chlorite it is also present in the octahedral sheet. Doublet D4 has IS and QS parameters that are characteristic of the M4 site (Smyth et al 1997 ) a lower quadropole splitting means more distortion around a site, the measured doublets D1 were ascribed as originating from the M1 site. However, the majority of ferrous ions occupy M2 sites in purple and green Cr-clinochlore.…”

Section: Resultsmentioning

confidence: 95%

“…ions are present in M1 and M2 crystal sites, and Fe 3? ions are present in M3 and M4 crystal sites, as well as in a tetrahedral coordination (Goodman and Bain 1979, Blaauw et al 1980, Dyar 1987, deGrave et al 1987, Gregori and Mercader 1994, Smyth et al 1997. The influence of Al 3?…”

Section: Introductionmentioning

confidence: 99%

Luminescence and other spectroscopic properties of purple and green Cr-clinochlore

et al. 2013

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For the first time ever, the luminescence spectra of Cr 3? centers in two chlorite crystals are presented. Chromium ions occupy the strong crystal-field site M4 in the brucite sheet and the intermediate crystal-field site in the inner octahedral sheet for purple and green chlorite, respectively. We discuss the influence of an effective positive charge on the Cr 3? ion and an effective negative charge of ligands on the differences in the values of the Dq and B parameters. It is concluded that the presence of Fe 2? ions and other point defects, as well as concentration quenching, causes the very short luminescence lifetimes of chromium ions.

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Crystal Structure Refinement and Mössbauer Spectroscopy of an Ordered, Triclinic Clinochlore

Cited by 46 publications

References 24 publications

Quantitative texture analysis of glaucophanite deformed under eclogite facies conditions (Sesia-Lanzo Zone, Western Alps): comparison between X-ray and neutron diffraction analysis

Quantitative texture analysis of glaucophanite deformed under eclogite facies conditions (Sesia-Lanzo Zone, Western Alps): comparison between X-ray and neutron diffraction analysis

High-pressure behavior of clinochlore

Luminescence and other spectroscopic properties of purple and green Cr-clinochlore

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