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Spectroscopy of diamond plates modified by electron beams
Russian version
Kostin A. A.1, Podoilov I.O.1, Kharlamova A.A.1, Ladvishchenko A.A.1, M. K. Eseev 1, Makarov D. N. 1, Makarova K.A.1
1Northern (Arctic) Federal University, Arkhangelsk, Russia
Email: a.kostin@narfu.ru, i.podojlov@narfu.ru, a.a.harlamova@narfu.ru, a.ladvischenko@narfu.ru, m.eseev@narfu.ru, makarovd0608@yandex.ru, k.makarova@narfu.ru
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Five monocrystalline type Ib plates with nitrogen nitrogen from 9 to 106 ppm, were irradiated with a dose of 1018 e/cm2 electrons with an energy of 3 MeV and were annealed in vacuum at a temperature of 1200 oC during 24 hours. The dependence of the resonance signal magnitude on changes in the concentration of substitutive nitrogen as a result of electron irradiation and subsequent annealing was found by infrared spectroscopy and optically detectable magnetic resonance. Keywords: diamond, defects, nitrogen vacancies, optically detectable magnetic resonance, infrared spectroscopy.
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