Записки Горного института (Apr 2024)

Depth distribution of radiation defects in irradiated diamonds by confocal Raman spectroscopy

  • Rajendra M. Ardalkar,
  • Yogesh D. Salunkhe,
  • Mahesh P. Gaonkar,
  • Sandesh N. Mane,
  • Omkar A. Ghaisas,
  • Shripalkumar N. Desai,
  • Annareddy V. R. Reddy

Journal volume & issue
Vol. 266
pp. 179 – 187

Abstract

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Five colored diamonds were investigated. According to the results of the study by FTIR, UV-Vis-NIR and Photoluminescence spectroscopy, they are natural type Ia diamonds. The depth distribution of the color intensity was carried out by measuring the intensity of the PL peak at 741 nm (GR1 center) upon excitation by a laser with a wavelength of 633 nm of Raman Confocal microscope. To minimise the perturbation due to geometrical effects, defect distribution profiles were normalised with respect to diamond Raman peak intensity (691 nm) point by point. For two diamonds, the intensity of the GR1 peak (741 nm) sharply decreased to a depth of 10 µm, and then became equal to the background level, which is typical for irradiation with alpha particles from natural sources like uranium. In other diamonds, the profiles vary slightly with depth, and the color intensity is close to uniform, which is for irradiation with accelerated electrons or neutrons. The source of radiation has not been determined. However, long duration radioactivity measurements of the diamonds suggested that neutrons were not used for colour centers production in the diamonds studied.

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