Add to ORKGThe study of the crystallographic orientations of minerals included in diamonds can provide an insight into the mechanisms of their incorporation and the timing of their formation relative to the host diamond. The reported occurrence of non-trivial orientations for some minerals in some diamonds, suggesting an epitactic relationship, has long been considered to reflect contemporaneous growth of the diamond and the inclusion (= syngenesis). Correct interpretation of such orientations requires (i) a statistically significant data set, i.e. crystallographic data for single and multiple inclusions in a large number of diamonds, and (ii) a robust data-processing method, capable of removing ambiguities derived from the high symmetry of the diamon...
n recent years, several studies have focused on the growth conditions of the diamonds through the an...
To fully understand the implications of the compositional information recorded by inclusions in diam...
Diamonds are the deepest “fragments” of the primordial Earth that reach the Earth’s surface after tr...
We have studied by X-ray diffractometry the crystallographic orientation relationships (CORs) betwee...
We have investigated the crystallographic relationships between olivine inclusions and their diamond...
The syngenicity of inclusions in diamonds is generally assumed on the basis of morphological criteri...
Diamond is probably the most deepest and oldest material able to reach the Earth\u2019s surface. Tha...
In recent years, several studies have focused on the growth conditions of the diamonds through the a...
The mineralogy and chemical compositions of inclusions in diamonds are the primary source of informa...
The identification of syngenetic inclusions in diamond (i.e. inclusions of minerals that crystallize...
The identification of syngenetic inclusions in diamond (i.e. inclusions of minerals that crystallize...
In this work we report for the first time the crystallographic orientations of olivine inclusions tr...
In recent years, several studies have focused on the growth conditions of the diamonds through the a...
At the core of many Earth-scale processes is the question of what the deep mantle is made of. The on...
Modern single-crystal X-ray analysis of minerals still encapsulated in diamond not only permits the ...
n recent years, several studies have focused on the growth conditions of the diamonds through the an...
To fully understand the implications of the compositional information recorded by inclusions in diam...
Diamonds are the deepest “fragments” of the primordial Earth that reach the Earth’s surface after tr...
We have studied by X-ray diffractometry the crystallographic orientation relationships (CORs) betwee...
We have investigated the crystallographic relationships between olivine inclusions and their diamond...
The syngenicity of inclusions in diamonds is generally assumed on the basis of morphological criteri...
Diamond is probably the most deepest and oldest material able to reach the Earth\u2019s surface. Tha...
In recent years, several studies have focused on the growth conditions of the diamonds through the a...
The mineralogy and chemical compositions of inclusions in diamonds are the primary source of informa...
The identification of syngenetic inclusions in diamond (i.e. inclusions of minerals that crystallize...
The identification of syngenetic inclusions in diamond (i.e. inclusions of minerals that crystallize...
In this work we report for the first time the crystallographic orientations of olivine inclusions tr...
In recent years, several studies have focused on the growth conditions of the diamonds through the a...
At the core of many Earth-scale processes is the question of what the deep mantle is made of. The on...
Modern single-crystal X-ray analysis of minerals still encapsulated in diamond not only permits the ...
n recent years, several studies have focused on the growth conditions of the diamonds through the an...
To fully understand the implications of the compositional information recorded by inclusions in diam...
Diamonds are the deepest “fragments” of the primordial Earth that reach the Earth’s surface after tr...