The distribution of gold in small acicular arsenopyrite of a pyrite-arsenopyrite association from Suzdal(Eastern Kazakhstan),Olympiada(Yenisei Ridge,Russia)and large pseudorhombic arsenopyrite crystals from Bazovskoe(...The distribution of gold in small acicular arsenopyrite of a pyrite-arsenopyrite association from Suzdal(Eastern Kazakhstan),Olympiada(Yenisei Ridge,Russia)and large pseudorhombic arsenopyrite crystals from Bazovskoe(Yakutia,Russia)orogenic-type deposits were investigated.On orogenic gold deposits in NE Asia,occurring mainly in black shales,two productive stages of ore deposition are distinguished,which correspond to two morphological varieties of arsenopyrite.At the early stage,fine-grained acicular-prismatic arsenopyrite with invisible gold was deposited;at the late stage,tabular arsenopyrite in association with free visible gold was formed.The samples of gold-bearing arsenopyrite were analyzed using Scanning Electron Microscopy,Electron Microprobe Analyses,Atomic Absorption and Laser Ablation Inductively Coupled Plasma Mass Spectrometry in combination with High Resolution 3D X-ray Computed Tomography(HRXCT).HRXCT does not destroy the studied mineral during the investigation.That technique permits to do an estimation of the amount of gold inclusions in minerals or host rocks and draw reasonable conclusions about the gold content of the ores,to study in detail the distribution patterns of metal inclusions(associated with certain minerals,cracks,crystal growth faces,etc.)and to determine the form of the gold.It can be used to understanding of the genesis of productive mineral associations,and to developing optimal technological schemes for gold extraction.展开更多
This Letter proposes a high bit-depth coding method to improve depth map resolution and render it suitable to human-eye observation in 3D range-intensity correlation laser imaging. In this method, a high bit-depth CCD...This Letter proposes a high bit-depth coding method to improve depth map resolution and render it suitable to human-eye observation in 3D range-intensity correlation laser imaging. In this method, a high bit-depth CCD camera with a nanosecond-sealed gated intensifier is used as an image sensor; subsequently two high bit-depth gate images with specific range-intensity profiles are obtained to establish the gray depth map and finally the gray depth map is encoded by an equidensity pseudocolor. With this method, a color depth map is generated with higher range resolution. In our experimental work, the range resolution of the depth map is improved by a factor of 1.67.展开更多
基金financial support for the project by the Russian Federation represented by the Ministry of Education and Science of Russia(project number 13.1902.24.44,agreement number 075-15-2024-641).
文摘The distribution of gold in small acicular arsenopyrite of a pyrite-arsenopyrite association from Suzdal(Eastern Kazakhstan),Olympiada(Yenisei Ridge,Russia)and large pseudorhombic arsenopyrite crystals from Bazovskoe(Yakutia,Russia)orogenic-type deposits were investigated.On orogenic gold deposits in NE Asia,occurring mainly in black shales,two productive stages of ore deposition are distinguished,which correspond to two morphological varieties of arsenopyrite.At the early stage,fine-grained acicular-prismatic arsenopyrite with invisible gold was deposited;at the late stage,tabular arsenopyrite in association with free visible gold was formed.The samples of gold-bearing arsenopyrite were analyzed using Scanning Electron Microscopy,Electron Microprobe Analyses,Atomic Absorption and Laser Ablation Inductively Coupled Plasma Mass Spectrometry in combination with High Resolution 3D X-ray Computed Tomography(HRXCT).HRXCT does not destroy the studied mineral during the investigation.That technique permits to do an estimation of the amount of gold inclusions in minerals or host rocks and draw reasonable conclusions about the gold content of the ores,to study in detail the distribution patterns of metal inclusions(associated with certain minerals,cracks,crystal growth faces,etc.)and to determine the form of the gold.It can be used to understanding of the genesis of productive mineral associations,and to developing optimal technological schemes for gold extraction.
基金supported by the National Natural Science Foundation of China under Grant Nos.61205019 and 61475150
文摘This Letter proposes a high bit-depth coding method to improve depth map resolution and render it suitable to human-eye observation in 3D range-intensity correlation laser imaging. In this method, a high bit-depth CCD camera with a nanosecond-sealed gated intensifier is used as an image sensor; subsequently two high bit-depth gate images with specific range-intensity profiles are obtained to establish the gray depth map and finally the gray depth map is encoded by an equidensity pseudocolor. With this method, a color depth map is generated with higher range resolution. In our experimental work, the range resolution of the depth map is improved by a factor of 1.67.
