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Received: 22 June 2020
Accepted: 22 June 2021
Online: 23 July 2021
H. Editor: R. Skála
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Original paper

Rudolf I. Mashkovtsev, Marianna I. Rakhmanova, Dmitry A. Zedgenizov

Specific spectroscopic features of yellow cuboid diamonds from placers in the north-eastern Siberian Platform

Journal of Geosciences, volume 66 (2021), issue 2, 117 - 126


  Abstract References Affiliations

Boyd SR, Kiflawi I, Woods GS (1995) Infrared absorption by the B nitrogen aggregate in diamond. Philos Mag B72: 351-361

Charles SJ, Steeds JW, Butler JE, Evans DJF (2003) Optical centers introduced in boron-doped synthetic diamond by near-threshold electron irradiation. J Appl Phys 94: 3094-3100

Collins AT (1982) Colour centres in diamond. J Gemmol 18: 37-75

Czelej K, Ćwieka K, Śpiewak P, Jan Kurzydłowski K (2018). Titanium-related color centers in diamond: a density functional theory prediction. J Mater Chem C 6: 5261-5268

Davies G (1976) The A nitrogen aggregate in diamond-its symmetry and possible structure. J Phys C: Solid State Phys 9: L537

Dobrinets IA, Vins VG, Zaitsev AM (2013) HPHT-treated diamonds: diamonds forever. Springer Series in Materials Science 181, Springer, Berlin, pp 1-257

Doherty MW, Manson NB, Neil B, Delaney P, Jelezko F, Wrachtrup J, Hollenberg LCL (2013) The nitrogen-vacancy colour centre in diamond. Phys Rep 528: 1-45

DuPreez L (1965) Electron paramagnetic resonance and optical investigations of defect centres in diamond. PhD Thesis, Univ of Witwatersrand, Johannesburg

Etmimi KM, Goss JP, Briddon PR, Gsiea AM (2010) A density functional theory study of models for the N3 and OK1 EPR centres in diamond. J Phys: Condens Matter 22: 385502

Fedorova EN, Logvinova AM, Mashkovtsev RI, Sobolev NV (2013) Internal structure and color of the natural plastically deformed diamonds from the Internatsionalnaya kimberlite pipe. In: Pearson DG et al. (eds) Proceedings of 10th International Kimberlite Conference. Special Issue J Geol Soc India. Geol Soc India Vol.1, pp 323-333

Gaillou E, Post J, Bassim N, Zaitsev AM, Rose T, Fries M, Stroud RM, Steele A, Butler JE (2010) Spectroscopic and microscopic characterization of color lamellae in natural pink diamonds. Diamond Relat Mater 19: 1207-1220

Goss JP, Briddon PR, Hill V, Jones R, Rayson MJ (2014) Identification of the structure of the 3107 cm-1 H-related defect in diamond. J Phys: Condens Matter 26: 145801

Grakhanov SA, Shatalov VI, Shtyrov VA, Kychkin VR, Suleimanov AM (2007). In: Dodin DA (ed) Diamond Placers of Russia. Akademicheskoe Izd. “Geo”: Novosibirsk, Russia, pp 454 (In Russian)

Hainschwang T, Notari F, Fritsch E, Massi L (2006) Natural, untreated diamonds showing the A, B and C infrared absorptions (“ABC” diamonds) and the H2 absorption. Diam Relat Mater 15: 1555-1564

Hainschwang T, Fritsch E, Notari F, Rondeau B (2012) A new defect center in type Ib diamond inducing one phonon infrared absorption. Diamond Relat Mater 21: 120-126

Hainschwang T, Fritsch E, Notari F, Rondeau B, Katrusha A (2013) The origin of color in natural C center bearing diamonds. Diamond Relat Mater 39: 27-40

Hull D, Bacon DJ (1984) Introduction to dislocations. Pergamon Press, Oxford, pp 1-257

Kiflawi I, Mayer AE, Spear PM, Van Wyk JA, Woods GS (1994) Infrared absorption by the single nitrogen and A defect centres in diamond. Philos Mag B69: 1141-1147

Klingsporn PE, Bell MD, Leivo WJ (1970) Analysis of an electron spin resonance spectrum in natural diamonds. J Appl Phys 41: 2977-2980

Lang AR (1974) Space-filling by branching columnar single-crystal growth: An example from crystallization of diamond. J Cryst Growth 23: 151-153

Lawson SC, Fisher D, Hunt DC, Newton ME (1998) On the existence of positively charged substitutional nitrogen in diamond. J Phys: Condens Matter 10: 6171-6180

Massi L, Fritsch E, Collins AT, Hainschwang T, Notari F (2005) The "amber centres" and their relation to the brown colour in diamond. Diamond Relat Mater 14: 1623-1629

Mineeva RM, Zudina NN, Titkov SV, Ryabchikov ID, Speransky AV, Zudin NG (2013) EPR-spectroscopy of diamonds of cubic habit from the placers in the North-East of the Siberian platform: new type of nitrogen centers. Dokl Earth Sci 448: 243-247

Moore M, Lang AR (1972) On the internal structure of natural diamonds of cubic habit. Philos Mag 26: 1313-1325

Nadolinny V, Yuryeva O, Chepurov A, Shatsky V (2009a) Titanium ions in the diamond structure: model and experimental evidence. Appl Magn Reson 36: 109-113

Nadolinny VA, Yuryeva OP, Shatsky VS, Stepanov AS, Golushko VV, Rakhmanova MI, Kupriyanov IN, Kalinin AA, Palyanov YN, Zedgenizov DA (2009b) New data on the nature of the EPR OK1 and N3 centers in diamond. Appl Magn Reson 36: 97-108

Nadolinny VA, Yuryeva OP, Rakhmanova MI, Shatsky VS, Palyanov YN, Kupriyanov IN, Zedgenizov DA, Ragozin AL (2012) Distribution of OK1, N3 and NU1 defects in diamond crystals of different habits. Eur J Miner 24: 645-650

Nadolinny V, Palyanov Y, Yuryeva O, Zedgenizov D, Rakhmanova M, Kalinin A, Komarovskikh A (2015) The influence of HTHP treatment on the OK1 and N3 centers in natural diamond crystals. Phys Stat Solidi A212: 2474-2479

Nasdala L, Grambole D, Wildner M, Gigler AM, Hainschwang T, Zaitsev AM, Harris JW, Milledge J, Schulze DJ, Hofmeister W, Balmer WA (2013) Radio-colouration of diamond: a spectroscopic study. Contrib Mineral Petrol 165 (5): 843-861

Newton EM, Baker JM (1989) 14N ENDOR of the OK1 centre in natural type Ib diamond. J Phys: Condens Matter 1: 10549-10561

Orlov YL (1977) The Mineralogy of the Diamond. John Wiley, New York, pp 1-235

Orlov YL, Bulienkov NA, Martovitsky VP (1982) A study of the internal structure of variety III diamonds by x-ray section topography. Phys Chem Miner 8: 105-111

Palyanov YN, Khokhryakov AF, Borzdov YuM, Sokol AS, Gusev VA, Rylov GM, Sobolev NV (1997) Growth conditions and real structure of synthetic diamond crystals. Rus Geol Geophys 5: 882-906

Pezzagna S, Rogalla D, Wildanger D, Meijer J, Zaitsev A (2011) Creation and nature of optical centres in diamond for single-photon emission-overview and critical remarks. New J Phys 13: 035024

Punin YO (1981) Crystal splitting. Zap Vsesojuz mineral Obšč 110(6): 666-686 (In Russian)

Ragozin A, Zedgenizov D, Kuper K, Kalinina V, Zemnukhov A (2017) The internal structure of yellow cuboid diamonds from alluvial placers of the northeastern Siberian platform. Crystals 7: 238-250

Reutsky VN, Shiryaev AA, Titkov SV, Wiedenbeck M, Zudina NN (2017) Evidence for large scale fractionation of carbon isotopes and of nitrogen impurity during crystallization of gem quality cubic diamonds from placers of North Yakutia. Geochem Inter 55: 988-999

Shatsky VS, Zedgenizov DA, Ragozin AL, Kalinina VV (2014) Carbon isotopes and nitrogen contents in placer diamonds from NE Siberian craton: implications for diamond origins. Eur J Mineral 26: 41-52

Shatsky VS, Zedgenizov DA, Ragozin AL, Kalinina VV (2015) Diamondiferous subcontinental lithospheric mantle of the northeastern Siberian craton: Evidence from mineral inclusions in alluvial diamonds. Gondwana Res 28: 106-120

Smit KV, D’Haenens-Johansson UFS, Howell D, Loudin LC, Wang W (2018) Deformation-related spectroscopic features in natural type Ib-IaA diamonds from Zimmi (West African craton). Mineral Petrol 112 (Suppl 1): S243-S257

Sobolev NV, Sobolev VN, Snyder GA, Yefimova ES, Taylor LA (1999) Significance of eclogitic and related parageneses of natural diamonds. Inter Geol Rev 41: 129-140

Steeds JW, Charles SJ, Davies J, Griffin I (2000) Photoluminescence spectroscopy of TEM irradiated diamond. Diamond Related Mater 9: 397-403

Sunagawa I (1990) Growth and morphology of diamond crystals under stable and metastable contitions. J Cryst Growth 99: 1156-1161

Titkov SV, Shigley JE, Breeding CM, Mineeva RM, Zudin NG, Sergeev AM (2008) Natural color purple diamonds from Siberia. Gems Gemol 44 (1): 56-64

Titkov SV, Mineeva RM, Zudina NN, Sergeev AM, Ryabchikov ID, Shiryaev AA, Speransky AV, Zhikhareva VP (2015a) The luminescent nature of orange coloration in natural diamonds: optical and EPR study. Phys Chem Miner 42: 131-141

Titkov SV, Shiryaev AA, Zudina NN, Zudin NG, Solodova YP (2015b) Defects in cubic diamonds from the placers in the northeastern Siberian platform: results of IR microspectrometry. Russ Geol Geophys 56: 354-362

Tretiakova L (2009) Spectroscopic methods for the identification of natural yellow gem-quality diamonds. Eur J Mineral 21: 43-50

Van Wyk J, Ryenhardt EC, High GL, Kiflawi J (1997) The dependences of ESR line widths and spin-spin relaxation times of single nitrogen defects on the concentration of nitrogen defects in diamond. J Phys D Appl Phys 30: 1790-1793

Vasilev EA, Zedgenizov DA, Klepikov IV (2020) The enigma of cuboid diamonds: the causes of inverse distribution of optical centers within the growth zones. J Geosci 65: 59-70

Yang Z, Liang R, Zeng X, Peng M (2012) A microscopy and FTIR and PL spectra study of polycrystalline diamonds from Mengyin kimberlite pipes. ISRN Spectroscopy, Art ID 871824

Yelisseyev AP, Kanda H (2007) Optical centers related to 3d transition metals in diamond. New Diamond Front Carbon Technol 17: 127-178

Yelisseyev A, Nadolinny V, Feygelson B, Terentyev S, Nosukhin S (1996) Spatial distribution of impurity defects in synthetic diamonds obtained by the BARS technology. Diamond Relat Mater 5: 1113-1117

Yuryeva OP, Rakhmanova MI, Nadolinny VA, Zedgenizov DA, Shatsky VS, Kagi H, Komarovskikh AY (2015) The characteristic photoluminescence and EPR features of superdeep diamonds (São-Luis, Brazil). Phys Chem Miner 42: 707-722

Yuryeva OP, Rakhmanova MI, Zedgenizov DA, Kalinina VV (2020) Spectroscopic evidence of the origin of brown and pink diamonds family from Internatsionalnaya kimberlite pipe (Siberian craton). Phys Chem Miner 47: 20

Zaitsev AM (2001) Optical properties of diamond: a data handbook. Springer, Berlin, p 502

Zedgenizov DA, Kalinina VV, Reutsky VN, Yuryeva OP, Rakhmanova MI (2016) Regular cuboid diamonds from placers on the northeastern Siberian platform. Lithos 265: 125-137

Zedgenizov D, Reutsky VN, Wiedenbeck M (2017) The carbon and nitrogen isotope characteristics of type Ib-IaA cuboid diamonds from alluvial placers in the Northeastern Siberian platform. Minerals 7(10): 178

Zudina NN, Titkov SV, Sergeev AM, Zudin NG (2013) The features luminescence centers in cubic diamonds with different color from placers Northeast Siberian Platform. Proc Russian Mineral Soc 4: 57-72

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