References
S. R. Boyd, F. Pineau, and M. Javoy, “Modelling the Growth of Natural Diamonds,” Chem. Geol. 116, 29–42 (1994).
D. G. Pearson, S. B. Shirey, G. P. Bulanova, et al., “Re-Os Isotope Measurements of Single Sulfide Inclusions in a Siberian Diamond and Its Nitrogen Aggregation Systematics,” Geochim. Cosmochim. Acta 63, 703–711 (1999).
G. P. Bulanova, D. G. Pearson, E. H. Hauri, and B. J. Griffin, “Carbon and Nitrogen Isotope Systematics within a Sector-Growth Diamond from the Mir Kimberlite, Yakutia,” Chem. Geol. 188, 105–123 (2002).
F. V. Kaminsky and G. K. Khachatryan, “The Relationship between the Distribution of Nitrogen Impurity Centres in Diamond Crystals and Their Internal Structure and Mechanism of Growth,” Lithos 77, 255–271 (2004).
H. Kanda and S. C. Lawson, “Growth Temperature Effects on Impurities in HP/HT Diamonds,” Industr. Diamond Rev. 55, 56–61 (1995).
B. N. Feigelson and Y. V. Babich, “A New Approach for the Study of Impurity Structure Formation in Diamond,” in Proceedings of Diamond-98 Conference, London, 1998 (London, 1998), p. 37.
I. Kiflawi, H. Kanda, and S. C. Lawson, “The Effect of the Growth Rate on the Concentration of Nitrogen and Transition Metal Impurities in HPHT Synthetic Diamond,” Diamond Relat. Mater. 11, 204–211 (2002).
Y. V. Babich, B. N. Feigelson, D. Fisher, et al., “The Growth Rate Effect on the Nitrogen Aggregation in HTHP Grown Synthetic Diamonds,” Diamond Relat. Mater. 9, 893–896 (2000).
Y. V. Babich, B. N. Feigelson, and A. Yelisseyev, “Nitrogen Aggregation and Linear Growth Rate in HPHT Synthetic Diamonds,” Diamond Relat. Mater 13, 1802–1806 (2004).
E. V. Sobolev, Yu. A. Litvin, N. D. Samsonenko, et al., “On the State of Trace Nitrogen in the Synthesized Diamond,” Fiz. Tverd. Tela 10, 2266–2268 (1968).
R. M. Chrenko, R. E. Tuft, and H. M. Strong, “Transformation of the State of Nitrogen in Diamond,” Nature 270, 141–144 (1977).
S. C. Lawson, D. Fisher, D. C. Hunt, and M. E. Newton, “On the Existence of Positively Charged Single-Substitutional Nitrogen in Diamond,” J. Phys. Condens. Matter. 10, 6171–6180 (1998).
I. Kiflawi, A. E. Mayer, P. M. Spear, et al., “Infrared Absorption by the Single Nitrogen and A Defect Centers in Diamond,” Philosoph. Mag. 69, 1141–1147.
S. R. Boyd, I. Kiflawi, and G. S. Woods, “The Relationship between Infrared Absorption and the A-Defect Concentration in Diamond,” Philosoph. Mag. 69, 1149–1153.
A. A. Giardini and J. E. Tydings, “Diamond Synthesis: Observations on the Mechanism of Formation,” Am. Mineral. 47, 1393–1421 (1962).
Yu. A. Litvin and V. N. Butuzov, “On the Growth of Synthesized Diamond Crystals,” Dokl. Akad. Nauk SSSR 181, 1123–1124 (1968).
S. Satoh, H. Sumiya, K. Tsuji, and S. Yazu, Science and Technology of New Diamond, Ed. by S. Saito, O. Fukunaga, and M. Yoshikawa (Terra Scientific, Tokyo., 1990), pp. 351–355.
W. R. Taylor, D. Canil, and H. J. Milledge, “Kinetics of Ib to IaA Nitrogen Aggregation in Diamond,” Geochim. Cosmochim. Acta 60, 4725–4733 (1996).
Yu. V. Babich and N. V. Surkov, “Modeling of the A-Defect Distribution in Diamond Crystals Grown by the Temperature-Gradient Method,” Neorgan. Materialy 36, 710–714 (2000) [Inorgan. Mater. 36, 587–590 (2000)].
A. Yelisseyev, Y. V. Babich, V. Nadolinny, et al., “Spectroscopic Study of HPHT Synthetic Diamonds as Grown at 1500°C,” Diamond Relat. Mater. 11, 22–37 (2002).
Yu. V. Babich and B. N. Feigel’son, “Distribution of Nitrogen-Related Defects in Diamond Single Crystals Grown under Nonisothermal Conditions,” Neorg.Materialy 42, 1070–1074 (2006) [Inorgan. Mater. 42, 971–975 (2006)].
D. Fisher and S. C. Lawson, “The Effect of Nickel and Cobalt on the Aggregation of Nitrogen in Diamond,” Diamond Relat. Mater. 7, 299–304 (1998).
V. V. Beskrovanov, Diamond Onthogeny (Nauka, Novosibirsk, 2000) [in Russian].
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © Yu.V. Babich, B.N. Feigelson, 2009, published in Geokhimiya, 2009, No. 1, pp. 98–102.
Rights and permissions
About this article
Cite this article
Babich, Y.V., Feigelson, B.N. Spatial distribution of the nitrogen defects in synthetic diamond monocrystals: Data of IR mapping. Geochem. Int. 47, 94–98 (2009). https://doi.org/10.1134/S0016702909010066
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0016702909010066