Platelet development in cuboid diamonds: insights from micro-FTIR mapping

Howell, D.; O’Neill, Craig; Grant, Kevin; Griffin, William L.; O’Reilly, Suzanne Y.; Pearson, Norman J.; Stern, Richard A.; Stachel, Thomas

doi:10.1007/s00410-012-0786-9

Cited by 35 publications

(31 citation statements)

References 44 publications

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“…It is well known that the formation of the twinned micro-lamellae is an important mechanism for deformation accommodation in diamond [37]. Previous high-pressure and high-temperature (HP-HT) experiments carried out on synthetic diamonds suggested that the {111} micro-twins begin to form under a range of P and T conditions typical for the upper mantle [26,38,39]. Howell et al (2012) [26] showed that further differential stress brings a continuous crystal bending that produces the formation of subgrains.…”

Section: Discussionmentioning

confidence: 99%

“…Previous high-pressure and high-temperature (HP-HT) experiments carried out on synthetic diamonds suggested that the {111} micro-twins begin to form under a range of P and T conditions typical for the upper mantle [26,38,39]. Howell et al (2012) [26] showed that further differential stress brings a continuous crystal bending that produces the formation of subgrains. In particular, when multiple slip systems {111} <110> occur simultaneously, a rotation of subgrains arises around <112> axes.…”

Section: Discussionmentioning

confidence: 99%

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Non-Destructive In Situ Study of Plastic Deformations in Diamonds: X-ray Diffraction Topography and µFTIR Mapping of Two Super Deep Diamond Crystals from São Luiz (Juina, Brazil)

et al. 2017

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Diamonds from Juina, Brazil, are well-known examples of superdeep diamond crystals formed under sublithospheric conditions and evidence would indicate their origins lie as deep as the Earth's mantle transition zone and the Lower Mantle. Detailed characterization of these minerals and of inclusions trapped within them may thus provide precious minero-petrogenetic information on their growth history in these inaccessible environments. With the aim of studying non-destructively the structural defects in the entire crystalline volume, two diamond samples from this locality, labelled JUc4 and BZ270, respectively, were studied in transmission mode by means of X-ray Diffraction Topography (XRDT) and micro Fourier Transform InfraRed Spectroscopy (µFTIR). The combined use of these methods shows a good fit between the mapping of spatial distribution of extended defects observed on the topographic images and the µFTIR maps corresponding to the concentration of N and H point defects. The results obtained show that both samples are affected by plastic deformation. In particular, BZ270 shows a lower content of nitrogen and higher deformation, and actually consists of different, slightly misoriented grains that contain sub-grains with a rounded-elongated shape. These features are commonly associated with deformation processes by solid-state diffusion creep under high pressure and high temperature.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Non-Destructive In Situ Study of Plastic Deformations in Diamonds: X-ray Diffraction Topography and µFTIR Mapping of Two Super Deep Diamond Crystals from São Luiz (Juina, Brazil)

et al. 2017

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“…However, two recent studies (Howell et al, 2012;2013a) have shown compelling evidence that the rate of nitrogen aggregation does not differ between sectors, but that the subsequent rate of platelet formation can be retarded in cuboid sectors due to the presence of "disc-crack-like" defects (Walmsley et al, 1987). Hydrogen-related absorption features are significantly stronger in the cuboid sectors (Rondeau et al, 2004;Howell et al, 2012;2013a), most likely due to C-H bonding occurring on the internal surfaces of the disc-crack-like defects. However, due to the possible abundance of IR-inactive hydrogen within a diamond (Sellschop, 1992;Sweeney et al, 1999), there remains no quantitative evidence regarding hydrogen partitioning between growth sectors.…”

Section: Introductionmentioning

confidence: 95%

“…Carbon-isotope analysis via both gas-sourced mass spectrometry (Cartigny et al, 2003) and secondary-ion mass spectrometry (SIMS; Bulanova et al, 2002;Zedgenizov & Harte, 2004;Howell et al, 2012;2013a) has revealed no evidence of isotopic fractionation between the growth sectors.…”

Section: Introductionmentioning

confidence: 99%