近期论文
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Papers submitted for review:
1)Zhang K(硕士生), Liu H, Ionov D, Yang X*. Hydroxyl solubility in garnet: effects of oxygen fugacity at 1-3 GPa and 800-1000 °C over a range of compositions and implications for mantle water storage, in review
2)Xiao L(硕士生), Liu H, Scaillet B, Wang X, Zhang W, Yang X*. Evidence from Ti-in-zircon for cold magmas on the young Moon, in review
3)Liu H(博士生), Zhu Q, Xu X, Fei H, Yang X*. High electrical conductivity of olivine at oxidizing conditions of the shallow mantle and geophysical implications, revision in review
4)Yang X*, Liu H, Zhang K. Redox geodynamics in Earth's interior, in revision
Papers published in peer-reviewed journals:
1)Jiang Peilin(博士生), Liu Hanyong, Skogby Henrik, Chen Renxu, Yang Xiaozhi*, 2021. Water in omphacite fingerprints the thermal history of eclogites, Geology, in press.
2)肖路毅(硕士生), 杨晓志*, 2021. 锆石Ce氧逸度计和早期地球的氧化还原状态, 高校地质学报, in press.
3)Liu Hanyong(博士生), Zhang Kai, Ingrin Jannick, Yang Xiaozhi*, 2021. Electrical conductivity of omphacite and garnet indicates limited deep water recycling by crust subduction, Earth and Planetary Science Letters, 2021, 559, 116784, 10.1016/j.epsl.2021.116784.
4)朱峤(硕士生), 刘汉永, 杨晓志*, 2021. 低温下碳酸盐熔体与橄榄石的二面角分布, 高压物理学报, 1: 18-25.
5)Liu Hanyong(博士生), Yang Xiaozhi*, 2020. Solubility of hydroxyl groups in pyroxenes: effect of oxygen fugacity at0.2-3 GPa and 800-1200 °C, Geochimica et Cosmochimica Acta, 286: 355-379.
6)Liu Hanyong(博士生), Zhu Qiao, Yang Xiaozhi*, 2019. Electrical conductivity of fluorite and fluorine conduction, Minerals, 9, 72, doi:10.3390/min9020072.
7)Zhang Baohua, Li Bowen, Zhao Chengcheng, Yang Xiaozhi, 2019. Large effect of water on Fe–Mg interdiffusion in garnet, Earth and Planetary Science Letters, 505, 20-29.
8)Xia Qun-Ke, Liu Jia, Kovács Istvan, Hao Yan-Tao, Li Pei, Yang Xiaozhi, Chen Huan, Sheng Yingming, 2019. Water in the upper mantle and deep crust of eastern China: concentration, distribution and implications, National Science Review, 6, 125-144.
9)徐义贤, 郑建平, 杨晓志, 夏群科, 2019. 岩石圈中部不连续面的成因及其动力学意义, 科学通报, 64: 2305-2315.
10)Qiu Yangyang(硕士生), Jiang Haotian, Kovacs, Istvan, Xia Qunke, Yang Xiaozhi*, 2018. Quantitative analysis of H-species in anisotropic minerals by unpolarized infrared spectroscopy: An experimental evaluation, American Mineralogist, 103,1761-1769.
11)Guo Xuan, Zhang Li, Su X, Mao Zhu, Gao XY, Yang Xiaozhi, Ni Huaiwei, 2018. Melting Inside the Tibetan Crust? Constraint From Electrical Conductivity of Peraluminous Granitic Melt, Geophysical Research Letters, 45, 3906-3913.
12)Fei Hongzhan, Huang Rong, Yang Xiaozhi, 2017. CaSiO3 Perovskite May Cause Electrical Conductivity Jump in the Topmost Lower Mantle, Geophysical Research Letters, 44: doi: 10.1002/2017GL075070.
13)Li Yan(硕士生), Jiang Haotian, Yang Xiaozhi*, 2017. Fluorine follows water: Effect on electrical conductivity of silicate minerals by experimental constraints from phlogopite, Geochimica et Cosmochimica Acta, 217, 16-27.
14)Shuai Kang(本科生), Yang Xiaozhi*, 2017. Quantitative analysis of H-species in anisotropic minerals by polarized infrared spectroscopy along three orthogonal directions, Contributions to Mineralogy and Petrology, 172, 14 doi: 10.1007/s00410-017-1336-2.
15)Yang Xiaozhi*, Keppler Hans, Li Yan. Molecular hydrogen in mantle minerals, Geochimical Perspective Letters, 2016, 2, 160-168.
16)Yang Xiaozhi*, 2016. Effect of oxygen fugacity on OH dissolution in olivine under peridotite-saturated conditions: an experimental study at 1.5-7 GPa and 1100-1300 °C, Geochimica et Cosmochimica Acta, 173: 319-336.
17)Li Yan(硕士生), Yang Xiaozhi*, Yu Jin-Hai, Cai Yuan-Feng. Unusually high electrical conductivity of phlogopite: the possible role of fluorine and geophysical implications, Contributions to Mineralogy and Petrology, 2016, 171, 37, doi: 10.1007/s00410-016-1252-x.
18)Yang Xiaozhi*, Li Yan, 2016. High-P/T experimental studies and water in the silicate mantle, Science in China–Earth Sciences, doi: 10.1007/s11430-015-5241-0.
19)Yang Xiaozhi*, 2015. OH solubility in olivine in the peridotite-COH system under reducing conditions and implications for water storage and hydrous melting in the reducing upper mantle, Earth and Planetary Science Letters, 432: 199-209.
20)杨晓志*, 2015. 浅谈高温高压实验地球科学:方法和应用, 矿物岩石地球化学通报, 34: 509-525.
21)Yang Xiaozhi*, Liu Dingding, Xia Qunke, 2014. CO2-induced small water solubility in olivine and implications for properties of the shallow mantle, Earth and Planetary Science Letters, 403: 37-47.
22)Yang Xiaozhi*, Gaillard Fabrice, Scaillet Bruno, 2014. A relatively reduced Hadean continental crust and implications for the early atmosphere and crustal rheology, Earth and Planetary Science Letters, 393: 210-219.
23)Yang Xiaozhi*, Keppler Hans, Dubrovinsky Leonid, Kurnosov Alexander, 2014. In-situ infrared spectra of hydroxyl in wadsleyite and ringwoodite at high pressure and high temperature, American Mineralogist, 99: 724-729.
24)杨晓志*, 2014. 电导岩石学: 原理、方法和进展, 中国科学--地球科学, 44: 1884-1900.
25)杨晓志*, 2013. 上地幔顶部电导率异常的起因, 岩石矿物学杂志, 32: 663-679.
26)Yang Xiaozhi*, 2012. An experimental study of H solubility in feldspars: effect of composition, oxygen fugacity, temperature and pressure and implications for crustal processes, Geochimica et Cosmochimica Acta, 97: 46-57.
27)Yang Xiaozhi*, 2012. Orientation-related electrical conductivity of hydrous olivine, clinopyroxene and plagioclase and implications for the structure of the lower continental crust and uppermost mantle, Earth and Planetary Science Letters, 317-318: 241-250.
28)Yang Xiaozhi*, McCammon Catherine, 2012. Fe3+-rich augite and high electrical conductivity in the deep lithosphere, Geology, 40: 131-134.
29)Yang Xiaozhi*, Heidelbach Florian, 2012. Grain size effect on the electrical conductivity of clinopyroxene, Contributions to Mineralogy and Petrology, 163: 939-947.
30)Yang Xiaozhi*, Dubrovinsky Leonid, Manthilake, Geeth, Wei Qingguo, 2012. High pressure and high temperature Raman spectroscopic study of hydrous wadsleyite (b-Mg2SiO4), Physics and Chemistry of Minerals, 39: 57-64.
31)Yang Xiaozhi*, Keppler Hans, McCammon Catherine, Ni Huaiwei, 2012. Electrical conductivity of orthopyroxene and plagioclase in the lower crust, Contributions to Mineralogy and Petrology, 163: 33-48.
32)杨贵才, 杨晓志, 夏群科, 2012. 下地壳含水性的演化—来自不同时代麻粒岩中长石水含量的证据, 岩石矿物学杂志, 31: 565-577.
33)杨贵才, 杨晓志, 郝艳涛, 夏群科, 2012. 大陆下地壳和岩石圈地幔含水性的差异: 山东莒南玄武岩中深源包体的初步观察, 岩石矿物学杂志, 31: 691-700.
34)Yang Xiaozhi*, 2011. Origin of high electrical conductivity in the lower continental crust: a review, Surveys in Geophysics, 32: 875-903.
35)Yang Xiaozhi*, Keppler Hans, 2011. In-situ infrared spectra of OH in olivine to 1100 ºC, American Mineralogist, 96: 451-454.
36)Yang Xiaozhi*, Keppler Hans, McCammon Catherine, Ni Huaiwei, Xia Qunke, Fan Qicheng, 2011. Effect of water on the electrical conductivity of lower crustal clinopyroxene, Journal of Geophysical Research, 116, B04208, doi: 10.1029/2010JB008010.
37)夏群科, 邢凌波, 冯敏, 刘少辰, 杨晓志, 郝艳涛, 2010. 湖南宁远早侏罗世玄武岩中橄榄岩包体的含水性和元素地球化学特征, 岩石矿物学杂志, 29: 113-124.
38)Yang Xiaozhi*, Xia Qunke, Deloule Etienne, Dallai Luigi, Fan Qicheng, Feng Min, 2008. Water in minerals of continental lithospheric mantle and overlying lower crust: a comparative study of peridotite and granulite xenoliths from the North China Craton, Chemical Geology, 256: 33-45.
39)Yang Xiaozhi*, Deloule Etienne, Xia Qunke, Fan Qicheng, Feng Min, 2008. Water contrast between Precambrian and Phanerozoic continental lower crust in eastern China, Journal of Geophysical Research, 113, B08207, doi: 08210.01029/02007JB005541.
40)Xia Qunke, Hao Yantao, Li Pei, Deloule Etienne, Coltorti Massimo, Dallai Luigi, Yang Xiaozhi, Feng Min, 2010. Low water content of the Cenozoic lithospheric mantle beneath the eastern part of the North China Craton, Journal of Geophysical Research, 2010, 115, B07207, doi: 10.1029/2009JB006694.
41)Sheng Yingming, Xia Qunke, Dallai Luigi, Yang Xiaozhi, Hao Yantao, 2007. H2O contents and D/H ratios of nominally anhydrous minerals from ultrahigh-pressure eclogites of the Dabie orogen, eastern China, Geochimica et Cosmochimica Acta, 71: 2079-2103.
42)杨晓志, 夏群科, 樊祺诚, Deloule Etienne, 2008. 大陆岩石圈的流变学性质和矿物中的水, 地学前缘, 15: 96-112.
43)杨晓志, 夏群科, 杨燕, 李佩, 黄玉, 2007. 大陆下地壳和岩石圈地幔中的水: 基于捕虏体的红外光谱分析, 中国科学技术大学学报, 37: 964-973.
44)杨晓志, 夏群科, Deloule Etienne, 樊祺诚, 2007. 华北新太古代和中生代大陆下地壳中的水: 以汉诺坝地区为例, 地球化学, 36: 113-119.
45)杨晓志, 夏群科, Deloule Etienne, 樊祺诚, 郝艳涛, 2007. 麻粒岩中的水对大陆下地壳性质和演化的启示, 自然科学进展, 17: 148-162.
46)夏群科, 杨晓志, 郝艳涛, 盛英明, 2007. 深部地球中水的分布和循环, 地学前缘, 14: 10-23.
47)郝艳涛, 夏群科, 杨晓志, 2007. 河北汉诺坝玄武岩中橄榄岩包体矿物的含水性研究——微区红外光谱分析, 岩石矿物学杂志, 26: 130-140.
48)杨燕, 夏群科, 李佩, 郝艳涛, 杨晓志, 2007. 单斜辉石中缺陷OH结合机理的变温红外光谱实验研究, 岩石矿物学杂志, 26: 429-435.
49)Xia Qunke, Yang Xiaozhi, Deloule Etienne, Sheng Yingming, Hao Yantao, 2006. Water in the lower crustal granulite xenoliths from Nushan, eastern China. Journal of Geophysical Research, 111, B11202, doi: 10.1029/2006JB004296.
50)杨晓志, 夏群科, 2006. 红外光谱测定绿辉石结构水含量的两种吸收系数之比较, 矿物学报, 26: 210-214.
51)杨晓志, 夏群科, 于慧敏, 郝艳涛, 2006. 大陆下地壳高电导率的起源: 矿物中的结构水, 地球科学进展, 21: 31-38.
52)郝艳涛, 夏群科, 丁强, 杨晓志, 于慧敏, 盛英明, 2006. 大别山沙村辉长岩中长石的结构水及其对岩浆演化的指示, 地质论评, 52: 675-682.
53)郝艳涛, 夏群科, 杨晓志, 王汝成, 2006. 安徽女山新生代玄武岩中橄榄岩包体矿物的含水性研究, 岩石学报, 22: 1713-1722.
54)Xia Qunke, Sheng Yingming, Yang Xiaozhi, Yu Huimin, 2005. Heterogeneity of water in garnets from UHP eclogites, eastern Dabieshan, China. Chemical Geology, 224: 237-246.
55)于慧敏, 夏群科, Deloule Etienne, 杨晓志, 2005. 安徽女山橄榄岩包体中辉石的氢同位素组成, 地质学报, 79: 341.
56)盛英明, 夏群科, 丁强, 杨晓志, 于慧敏, 郝艳涛, 2005. 大别山榴辉岩中石榴石的结构水: 红外光谱分析, 矿物学报, 25, 334-340.
57)杨晓志, 夏群科, 盛英明, 于慧敏, 郝艳涛, 2005. 安徽女山下地壳麻粒岩包体中的水: 红外光谱分析, 岩石学报, 21: 1669-1676.
58)盛英明, 夏群科, 杨晓志, 2004. 大陆深俯冲过程中水分布的不均一性:大别山碧溪岭榴辉岩中石榴石的红外光谱分析, 科学通报, 49: 1-6.
59)盛英明, 夏群科, 王汝成, 陈小明, 于慧敏, 杨晓志, 2004. 大别山碧溪岭和黄镇榴辉岩中绿辉石的结构水: 对原岩性质和动力学过程的制约, 岩石学报, 20: 1-8.
60)杨晓志, 夏群科, 程昊, 2004. 离子探针技术在地球化学研究中的应用综述, 安徽地质, 14: 52-57.
61)吴元保, 陈道公, 夏群科, 涂湘林, 程昊, 杨晓志, 2003. 大别山黄土岭麻粒岩中锆石LAM-ICP-MS微区微量元素分析和Pb-Pb定年, 中国科学D辑, 33: 20-28.
62)杨晓志, 夏群科, DelouleEtienne, 2003. 女山单斜辉石巨晶锂同位素组成的离子探针分析, 矿物学报, 23: 359-363.
63)程昊, 陈道公, Cheng Weiji, 杨晓志, 2003. 低温榴辉岩中石榴子石的成分分带: 快速抬升的证据, 地球化学, 32:, 81-85.