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1.
Lars Olov Andersson 《Physics and Chemistry of Minerals》2008,35(9):505-520
The EPR spectra of Maxixe-type beryl contain a large number of overlapping signals. The angular dependence of the 1:3:3:1
signal typical for the CH3 radical shows that this radical is located at the center of the channel cavity with its symmetry axis parallel to the crystal
c-axis and is rotating around this axis. Its EPR spectrum is axially symmetric with g
// = 2.00263, g
⊥ = 2.00249 and A// = 2.288 mT, A⊥ = 2.256 mT. These anisotropies have the opposite signs of those found for surface-adsorbed methyl radicals. Hydrogen atoms
are located at position 2a at the center of the beryl cavity and the EPR parameters of the narrow doublet signal are A
0 = 1,407 MHz and g = 2.00230. Another doublet signal, which is broader and has axial symmetry with g
// = 2.00265, g
⊥ = 2.00625 and A// = 0.895 mT, A⊥ = 0.885 mT, could come from a HCO3 radical. One narrow and easily saturated signal with g
// = 2.00227 and g
⊥ = 2.00386 is interpreted to arise from a carbon monoxide radical in the beryl channel, oriented with its axis parallel to
the crystal c-axis. Additional weak doublet lines, which have similar g values as the carbon monoxide radical, are created by nearby hydrogens. A powder spectrum with g
// = 2.0017 and g
⊥ = 2.0004 appears upon UV irradiation of the single crystal and is easily saturated. This spectrum is interpreted to arise
from a carbon dioxide radical, which rotates around its symmetry axis. 相似文献
2.
新疆阿尔泰绿柱石的矿物学特征 总被引:3,自引:0,他引:3
新疆阿尔泰绿柱石的矿物学特征*王元龙(中国科学院地球化学研究所,贵阳550002)易爽庭(新疆地质矿产局测试中心,乌鲁木齐830000)关键词绿柱石矿物学成因类型新疆阿尔泰绿柱石是新疆阿尔泰地区重要矿产资源,它不仅是铍的主要载体,而且是海蓝宝石的母体... 相似文献
3.
绿柱石与硅铍石均为铍矿物家族中的主要成员,是重要的工业铍矿物,利用背散射和电子探针研究矿物特性时,常可见两者共生或发生交代的现象(饶灿,2009;Reyf, 2008; Evensen, 1999),其结晶条件对于成矿环境与成矿机制均具有重要的指示意义。前人已进行了关于绿柱石,硅铍石等铍矿物稳定性的实验研究,但研究多采用高温淬火的高温高压实验装置,误差大,且无法原位观测矿物结晶习性(王振杰, 1992;Sirbescu et al., 2009),本文利用热液金刚石压腔,原位观测了绿柱石与硅铍石的结晶过程,得到了它们结晶的温压条件及结晶习性。 相似文献
4.
新疆绿柱石宝石辐照致色机制的吸收光谱研究 总被引:1,自引:0,他引:1
本文对新疆阿尔泰天然淡蓝、浅蓝宝石级绿柱石辐照前后及退火处理伴随着颜色改变的吸收光谱等进行了分析讨论,认为天然淡蓝、浅蓝色绿柱石经~(60)Co-γ辐照变成黄绿色,其原因主要归因于遂道中Fe~(2-)向Fe~(3+)的转变和八面体中Fe~(3+)和配位体O~(2-)的电荷转移。 相似文献
5.
The formation of the Mufushan granopegmatite was closely related to the Late Yenshanian multiphase and multistage magmatic activities,More than one generation of beryl and aquamarine occur in different types of pegmatite in the granites.The presence of melt and melt-fluid inclusions strongly indicates a melt-solution character of the pegmatitic magma.Forming temperatures of the different generations of beryl in a Na^ -K^ ,Ca^2 -CO3^2--Cl^--SO4^2- solution ranges from 990℃to 200℃.Aquamarine was formed at 720-180℃.The contents of alkali metals(Na^ K^ )in th ore-formming solution of aquamarine are lower than those in the beryl,but the contents of alkali earths(Ca) and salinity are higher,The granite was generated by remelting of the basement formation(meta-sedimentary rocks of the Lengjiaxi Group)which also served as the source of ore-forming material.Beryllium in the pegmatite was transported mainly in the form of Na[Be(CO3)2],with part of it being complexed with Cl^- and SO4^2-.During the generation and evolution of the pegmatite,equilibrium might have been reached in the solid-melt-fluid or solid-fluid system.The intergranular solutions may have reacted with the early crystallized minerals,resulting in potash-feldsparization,albitization and muscovitization during which the ore-forming elements were mobilized and transported in favour of ore deposition. 相似文献
6.
绿柱石通道中配合物的振动光谱和辐照裂解 总被引:2,自引:1,他引:2
以四川平武富碱型绿柱石为研究对象 ,采用 IR和 L RM测试方法 ,重点对通道中氢化物和多聚合离子的配位构型、辐照裂解及热致转型进行了较深入系统的研究。研究表明 ,在该区成矿作用条件下 ,绿柱石通道中的钠离子趋向与氢离子化合反应生成 Na H氢化物 ,并占据通道中的 C2 位。在垂直 c轴方向上 ,以 3165 cm-1,3114 cm-1及 30 31cm-1伸缩振动弱吸收谱带为特征。[Fe2 ( OH) 4 ] 2 多聚合离子占据通道中的 C1位 ,以 32 34 cm-1伸缩振动锐吸收谱带为特征 (∥ c轴 )。辐照作用导致上述多聚合离子的裂解 ,并形成不稳定的 [H0 ] i心和相对稳定的 [Fe3 ] OH心。与之对应的吸收谱带分别出现在 3110 cm-1(⊥ c轴 )和 335 5cm-1(∥c轴 )处。通道中 Na H和 [Fe2 ( OH) 4 ] 2 多聚合离子的存在 ,可视为该类型绿柱石的一个重要的成因标志。 相似文献
7.
辐照绿柱石的色心与赋色机制 总被引:4,自引:1,他引:4
在不同辐照剂量的带电粒子作用下,四川无色绿柱石因赋色而呈现浅蓝色,蓝绿色,黄绿色,浅黄色及橙黄色,紫外可见吸收光谱(UV-VIS)和阴极发光光谱(CLS)研究表明,辐照绿柱石中存在两组与赋色密切相关的色心组合,其一为相对稳定的[Fe^3 ]OH和[Fe^3 4]心,其二则为不稳定的[H^0]i心和F^ 心,二者对可见光的能量分别具有不同程度的选择性吸收和发射,由此产生特征的吸收与发射光谱。低温退火处理(210℃),有助于消除辐照绿柱石中不稳定的色心,使相对稳定的[Fe^3 ]OH心黉度再度聚集,并形成新的缺陷(二次缺陷),进而提高稳定色心的主波长和饱和度。研究证实,二次缺陷形成的初始温度,可近似代表辐照绿柱石的最佳热固色温度点,经辐照与热固色作用而形成的黄色,橙黄色绿柱石的颜色相对稳定,并不因长期日照或低温受热(<280℃)而褪色。 相似文献
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新疆阿尔泰库威伟晶岩中绿柱石形成的物理化学条件 总被引:3,自引:0,他引:3
本文利用包裹体研究探讨了新疆阿尔泰库威伟晶岩中绿柱石形成时的物理化学条件。绿柱石中包裹体类型主要有二类:含硅酸盐子晶流体包裹体和不含硅酸盐子晶气液流体包裹体。含硅酸盐子晶流体包裹体代表岩浆-热液过渡阶段时的一种超临界流体相。结合显微镜观察和含硅酸盐子晶流体包裹体喇曼探针成分测定,得出绿柱石形成时体系中二氧化碳密度较高,ρco2=0.68 ̄0-.96g/cm^3;盐度很低,NaCl(wt%)=3.2 相似文献