亚洲免费av电影一区二区三区,日韩爱爱视频,51精品视频一区二区三区,91视频爱爱,日韩欧美在线播放视频,中文字幕少妇AV,亚洲电影中文字幕,久久久久亚洲av成人网址,久久综合视频网站,国产在线不卡免费播放

        ?

        Introduction of the Beijing SHRIMP Center (National Science and Technology Infrastructure)

        2018-01-13 03:07:30
        China Geology 2018年3期

        The Beijing SHRIMP Center (BSC) is one of the National Science and Technology Infrastructures, jointly recognized by the Ministry of Science and Technology and the Ministry of Finance of China. It was established in December of 2001 and is incorporated into the Institute of Geology, China Geological Survey in Beijing. The major objectives of the BSC are to undertake research in geochronology and cosmochronology, the formation and early history of the solar system and the Earth and tectonic evolution of orogenic belts.The BSC also develops Earth Sciences related instruments and related new dating techniques and methods.

        The director of BSC is Prof. Tao Wang. In 2017, there were 6 members of BSC were in the list of top 10 Highly Cited Researchers of China Geological Survey. Since 2014,Prof. Dunyi Liu, the honorary director of the center, has been included in the list of Thomson Reuters/Clarivate Highly Cited Researchers for 4 consecutive years. He is the only scientist who won the Award from the Ministry of Land and Resources (now "the Ministry of Natural Resources").

        1. The most efficient globalized science and technology infrastructure

        1.1. The analytical facilities in BSC

        SHRIMP II (Sensitive High-Resolution Ion Micro Probe II).

        SHRIMP IIe-MC (Multi-collector Sensitive High-Resolution Ion Micro Probe II).

        ZEISS MERLIN Compact SEM (attached with CL4 and EDS).

        HORIBA LabRAM HR Evolution.

        selFrag Lab (Laboratory Fragmentator).

        1.2. Highly efficient operation and output

        The BSC insists on a policy of ''open-door, sharing, and high proficiency'', hence the productivity is very impressive.During the past 17 years, the BSC has analyzed more than 16000 geochronology and geochemistry samples. Our users came from many countries around the world, such as China,USA, Canada, Germany, Italy, Brazil, Colombia, Korea,India, Mongolia, Cuba and Iran, etc. The BSC has played a very important role in earth science research both home and abroad. Up to December 31 of 2017, more than 1800(domestic and overseas) research papers have been published based on the experimental data obtained from SHRIMP II of the Center, including 700 papers on international publications.The first author SCI papers published by the Center’s staff were more than 120. Since 2007, the annual scientific output(numbers of international journal papers) of the single SHRIMP in the center has been the No. 1 among similar facilities in the world. The BSC has become the showpiece of resource-sharing of the National Science and Technology Infrastructure, and a shining example of how future research facilities should operate in China.

        2. Analytical methodologies and development (R & D) of new scientific instruments

        2.1. Analytical methodologies established

        Small domain, in-situ U-Pb dating.

        Small domain, in-situ O isotopes measurements.

        2.2. New analytical methodologies under development

        New U-Pb dating methodology on Lunar basaltic glass beads.

        Small domain, in-situ U-Pb dating methodologies on Xenotime, Monazite and Rutile.

        2.3. R & D of new scientific instruments

        The key instrument of BSC-SHRIMP II.

        Two TOF-SIMS developed by the technical team of BSC.

        The Special-funded Program on National Key Scientific Instruments and Equipment Development, "New models of TOF-SIMS for Isotope Geology", which is undertaken by the BSC and its partners passed the technical acceptance which was organized by the Ministry of Natural Resources, China on April 10thof 2018. The TOF-SIMS is the first large precision mass spectrometer independently developed in China. Its technical specifications are at the advanced level in the field,which will provide new technical method for the research of geochemistry and cosmochemistry.

        3. Highlights of the BSC’s scientific research

        (i) Discovery of the oldest rocks (3.8 Ga) in China and the research on Archean evolution of Anshan won the 1stprize of Science & Tech Award of Ministry of Land & Resources in 2004. The follow-up study on "Early Precambrian crustal formation and evolution of the North China Craton" won the 1stprize of Science & Tech Award of Ministry of Land &Resources in 2017, and it has also passed two rounds of application oral defense for the National Natural Science Award.

        (ii) Preliminarily constructing the chronology framework of ophiolites in the Central Asian Orogenic Belt and proposing a new understanding of the periodic evolution of the orogenic belt has exerted an important influence both home and abroad. The related achievements "ophiolites dating and its application in the research of orogenic belt" won the 2ndprize of Science & Tech Award of Ministry of Land &Resources in 2018.

        (iii) Dating and geochronological research of Apollo Lunar samples accomplished cooperatively by researchers from the BSC and Washington University (at St. Louis)redefined the age of Imbrium Impact as 3.92Ga, which filled the research and technical gap in relevant fields in China and laid a solid technical foundation for the follow-up research on samples collected by China's lunar exploration program.

        4. International Cooperation

        (i) The BSC successfully developed a SHRIMP Remote Operation System (SROS) and established the global remote network (cooperated with universities and institutions from Brazil, Italy, Canada, Australia, Mongolia, etc.). SROS has completed remote SHRIMP analysis for more than 21,000 hours, and the related achievements have won the 3rdprize of Beijing Science and Technology Award in 2011.

        (ii) In 2009, the BSC initiated the establishment of the International Precambrian Research Center of China (IPRCC),which attracted quite a few world-famous scholars in Precambrian and formed an International Research Platform.In the past 9 years, IPRCC has successfully organized 3 international conferences, 12 international field excursions and 13 international training courses, which have been highly appraised by the international geological society. The establishment of IPRCC strengthened the position of the BSC as an international research platform and expanded the academic influences of China in the international Precambrian society.

        5. Contacts

        Ms. WANG Chen

        The Beijing SHRIMP Center

        Institute of Geology,

        Chinese Academy of Geological Sciences

        No.26 Baiwanzhuang Road, Beijing, 100037, P.R.CHINA

        Tel: +86-10-5683-3555

        E-mail: wangchen@bjshrimp.cn

        Website: www.bjshrimp.cn

        亚洲国产精品500在线观看| 国产爆乳美女娇喘呻吟| 色婷婷亚洲精品综合影院| 日本不卡高字幕在线2019| 99精品人妻少妇一区二区| 欧美视频在线观看一区二区| 免费福利视频二区三区| 国产一区二区三区蜜桃| 强d乱码中文字幕熟女免费| 米奇777四色精品人人爽| 欧美亚洲综合激情在线| 国产黄色看三级三级三级| 最新中文字幕人妻少妇| 小鲜肉自慰网站| 欧美在线日韩| 国产一区二区在三区在线观看| а天堂中文地址在线| 亚洲欧美激情精品一区二区| 欧美综合区| 亚洲免费一区二区av| 日韩人妻少妇一区二区三区| 吸咬奶头狂揉60分钟视频| 欧美zozo另类人禽交| 91盗摄偷拍一区二区三区| 亚洲人成无码区在线观看| 婷婷开心深爱五月天播播| 亚洲午夜久久久精品国产| av在线免费高清观看| 久久久g0g0午夜无码精品| 亚洲精品一二区| 日本超骚少妇熟妇视频| 亚洲精品乱码久久久久蜜桃| 欧美与黑人午夜性猛交久久久| 久久亚洲精彩无码天堂 | 国产精品片211在线观看| 男女午夜视频一区二区三区 | 精品久久久久久无码人妻蜜桃| 国产福利免费看| 久久尤物av天堂日日综合| 开心五月婷婷综合网站| 国产嫩草av一区二区三区|