TY - JOUR

T1 - Nitrogen and hydrogen aggregation in natural octahedral and cuboid diamonds

AU - Zedgenizov, D. A.

AU - Kalinin, A. A.

AU - Alinina, V. V.K.

AU - Palyanov, Yu N.

AU - Shatsky, V. S.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Transformations of nitrogen and hydrogen defects in natural octahedral and cuboid diamonds after multi-stage annealing at P = 6 GPa and T = 2200°C are presented. It has been observed that nitrogen aggregation from A- to B-defects in octahedral diamonds has gradually increased. This transformation of nitrogen has proceeded more rapidly in cuboid diamonds. One may confirm that most of the cuboid diamonds characterized by a low nitrogen aggregation state were not annealed over a long period at mantle conditions and their formation occurred shortly before transportation to the Earth's surface. Unlike octahedral diamonds, cuboid diamonds show a considerable increase in the intensity of the primary hydrogen-related peaks after the annealing, thus implying involvement of sites to which the hydrogen can bond and become IR-active, but these sites are simply not available in the octahedral diamonds. The magnitude to which peak 3107 cm-1 is increased after annealing has been found to be correlated with the total nitrogen content in cuboid diamonds. This supports the suggestion that the vibrational system with a primary line at 3107 cm-1corresponds to a C-H vibration bonded to some form of aggregated nitrogen.

AB - Transformations of nitrogen and hydrogen defects in natural octahedral and cuboid diamonds after multi-stage annealing at P = 6 GPa and T = 2200°C are presented. It has been observed that nitrogen aggregation from A- to B-defects in octahedral diamonds has gradually increased. This transformation of nitrogen has proceeded more rapidly in cuboid diamonds. One may confirm that most of the cuboid diamonds characterized by a low nitrogen aggregation state were not annealed over a long period at mantle conditions and their formation occurred shortly before transportation to the Earth's surface. Unlike octahedral diamonds, cuboid diamonds show a considerable increase in the intensity of the primary hydrogen-related peaks after the annealing, thus implying involvement of sites to which the hydrogen can bond and become IR-active, but these sites are simply not available in the octahedral diamonds. The magnitude to which peak 3107 cm-1 is increased after annealing has been found to be correlated with the total nitrogen content in cuboid diamonds. This supports the suggestion that the vibrational system with a primary line at 3107 cm-1corresponds to a C-H vibration bonded to some form of aggregated nitrogen.

KW - Aggregation

KW - Annealing

KW - Cuboid

KW - Defects

KW - Diamond

KW - HP-HT treatment

KW - Hydrogen

KW - Nitrogen

KW - aggregation

KW - hydrogen

KW - annealing

KW - ORIGIN

KW - cuboid

KW - KINETICS

KW - CUBIC HABIT

KW - GROWTH

KW - TRANSFORMATION

KW - nitrogen

KW - INFRARED-ABSORPTION

KW - IMPURITY DEFECTS

KW - FEATURES

KW - ISOTOPES

KW - diamond

KW - defects

KW - CRYSTALS

UR - http://www.scopus.com/inward/record.url?scp=85017103707&partnerID=8YFLogxK

U2 - 10.2343/geochemj.2.0452

DO - 10.2343/geochemj.2.0452

M3 - Article

AN - SCOPUS:85017103707

VL - 51

SP - 181

EP - 192

JO - Geochemical Journal

JF - Geochemical Journal

SN - 0016-7002

IS - 2

ER -