Residual strain around grown‐in defects in CVD diamond single crystals: A 2D and 3D Raman imaging study

Crisci, Alexandre; Baillet, Francis; Mermoux, Michel; Bogdan, G.; Nesládek, Miloš; Haenen, Ken

doi:10.1002/pssa.201100039

Cited by 30 publications

(26 citation statements)

References 14 publications

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“…17,18 The crystalline defects could be observed using analysis based on full-width-at-half-maximum (FWHM) and peak-shift mapping. 19,20,21 For p + diamond, the diamond Raman peak is broadened and shifted toward a lower wavenumber with increasing boron amount. 22,23 This phenomenon is known to be due to the Fano effect between discrete zone-center phonons and continuum electronic states.…”

Section: Introductionmentioning

confidence: 97%

Boron inhomogeneity of HPHT-grown single-crystal diamond substrates: Confocal micro-Raman mapping investigations

Srimongkon

Ohmagari

Kato

et al. 2016

Diamond and Related Materials

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Section: Introductionmentioning

confidence: 97%

Boron inhomogeneity of HPHT-grown single-crystal diamond substrates: Confocal micro-Raman mapping investigations

Srimongkon

Ohmagari

Kato

et al. 2016

Diamond and Related Materials

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“…Thus, the study of Raman spectra with an emphasis on the line position and width can help in the characterization of diamonds and diamond-related materials. This message has been exploited in a prodigious number of works [11][12][13][14][15][16][17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Effect of Nitrogen Impurities on the Raman Line Width in Diamond, Revisited

Surovtsev

Kupriyanov

2017

Crystals

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Abstract:The results of a high-resolution Raman scattering study of a diamond crystal with a high content of single substitutional nitrogen impurities (550 ppm) in the temperature range from 50 to 673 K are presented and compared with the data for defect-free diamond. It is established that the increase of the nitrogen concentration in diamond leads to the temperature-independent increase of the Raman line width. Analysis of the experimental data allows us to conclude that this broadening should be attributed to the defect-induced shortening of the Raman phonon lifetime. We believe that this mechanism is responsible for the increase of the Raman line width caused by most point-like defects in diamond. No pronounced effects of the nitrogen defects on the Raman line position and phonon anharmonicity are observed.

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“…All the above imperfections of the diamond crystal will cause the variation of the lattice constant and/or the change of orientation of the lattice plane. These changes can be measured by experimental methods such as the high resolution X‐ray topography and rocking curve measurements 9–14, Raman spectroscopy 15, TEM 16, polarized light microscopy 17, etc. The coherent bremsstrahlung process can also be used to check the crystal quality; however, it needs a dedicated high energy electron beam line.…”

Section: Introductionmentioning

confidence: 99%

High resolution X‐ray diffraction study of single crystal diamond radiators

Yang

Livingston

Jones

et al. 2012

Physica Status Solidi (a)

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High quality single crystal diamond is widely used for generating highly polarized high energy photon beams in the photonuclear physics study. The quality of the diamond crystal has a vital effect on the polarization of the photon beam which should be as high as possible as required by the experiments at Jefferson Lab, MAX_lab and MAMI, etc. One 20 µm thick diamond radiator from Jefferson lab and one 100 µm thick diamond radiator from MAMI were investigated by X‐ray rocking curve and topograph measurements. The rocking curve results suggest that the 20 µm thick diamond radiator is severely deformed which explains why this diamond radiator showed unstable performance in the coherent bremsstrahlung experiments. The 100 µm thick diamond radiator was radiation damaged after being used in an 855 MeV electron beam line for several years. At the radiation damage region, it was found that the rocking curve width is significantly broadened, and the rocking curve peak position shifted towards the larger angle side by around 200 arcsec. Raman test confirmed that a significant amount non‐diamond phase exist at the radiation damage region.

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Residual strain around grown‐in defects in CVD diamond single crystals: A 2D and 3D Raman imaging study

Cited by 30 publications

References 14 publications

Boron inhomogeneity of HPHT-grown single-crystal diamond substrates: Confocal micro-Raman mapping investigations

Boron inhomogeneity of HPHT-grown single-crystal diamond substrates: Confocal micro-Raman mapping investigations

Effect of Nitrogen Impurities on the Raman Line Width in Diamond, Revisited

High resolution X‐ray diffraction study of single crystal diamond radiators

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