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《数学研究及应用》2014,(4):F0003-F0003
<正>Journal overview:Journal of Mathematical Research with Applications(JMRA),formerly Journal of Mathematical Research and Exposition(JMRE)created in 1981,one of the transactions of China Society for Industrial and Applied Mathematics,is a home for original research papers of the highest quality in all areas of mathematics with applications.The target audience comprises: 相似文献
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Wolfram Meier-Augenstein Arndt Schimmelmann 《Isotopes in environmental and health studies》2019,55(2):113-128
Many scientific publications about stable isotope ratios suffer from flawed practices regarding calibration and normalisation of raw δ values in conjunction with prescribed δ values of reference materials. Violations of the identical treatment principle with regards to samples and standards (i.e. reference materials) and lack of adherence to SI-mandated and IUPAC-recommended nomenclature exacerbate the widespread problem of lackadaisical analytical practice and reporting. Science is supposed to strive for exactness, whereas ambiguity and jargon confound interdisciplinary communication. This contribution aims to expose typical misconceptions and avoidable errors and offers guidance toward the reproducible generation of isotope data, isotopic scale normalisation, and proper data reporting. We offer a comprehensive overview of sources of light stable isotope reference materials to best match sample matrices encountered by stable isotope practitioners with chemically similar reference materials. 相似文献
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《数学研究及应用》2014,(6)
正Journal overview:Journal of Mathematical Research with Applications(JMRA),formerly Journal of Mathematical Research and Exposition(JMRE)created in 1981,one of the transactions of China Society for Industrial and Applied Mathematics,is a home for original research papers of the highest quality in all areas of mathematics with applications.The target audience comprises:pure and applied mathematicians,graduate students in broad fields of sciences and technology,scientists and engineers interested in mathematics. 相似文献
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大色域显示——新一代显示技术 总被引:2,自引:0,他引:2
从上世纪30年代诞生的黑白显示,到50年代的彩色显示,再到上世纪末普及的数字显示,显示技术已经历了三代,现在要实现的是显示技术第四代——大色域显示.以激光做光源的"激光显示"是新一代显示技术——大色域显示的代表,大色域显示色域覆盖率将比现有显示的色域覆盖率提高2.4倍,可达80%以上.中国科学院2002年9月在国内首次实现了激光投影显示,通过实验证实了大色域显示技术的优势及产业前景,完成了激光显示技术的研究阶段,开始了产业化发展进程.再下一代的显示技术将是空间高保真再现问题——三维显示. 相似文献
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Inbound and outbound containers are temporarily stored in the storage yard at container terminals. A combination of container demand increase and storage yard capacity scarcity create complex operational challenges for storage yard managers. This paper presents an in-depth overview of storage yard operations, including the material handling equipment used, and highlights current industry trends and developments. A classification scheme for storage yard operations is proposed and used to classify scientific journal papers published between 2004 and 2012. The paper also discusses and challenges the current operational paradigms on storage yard operations. Lastly, the paper identifies new avenues for academic research based on current trends and developments in the container terminal industry. 相似文献
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Internal transport operations connect the seaside, yard side, and landside processes at container terminals. This paper presents an in-depth overview of transport operations and the material handling equipment used, highlights current industry trends and developments, and proposes a new classification scheme for transport operations and scientific journal papers published up to 2012. The paper also discusses and challenges current operational paradigms of transport operations. Lastly, the paper identifies new avenues for academic research based on current trends and developments in the container terminal industry. 相似文献
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从上世纪30年代诞生的黑白显示,到50年代的彩色显示,再到上世纪末普及的数字显示,显示技术已经历了三代,现在要实现的是显示技术第四代——大色域显示.以激光做光源的“激光显示”是新一代显示技术——大色域显示的代表,大色域显示色域覆盖率将比现有显示的色域覆盖率提高2.4倍,可达80%以上.中国科学院2002年9月在国内首次实现了激光投影显示,通过实验证实了大色域显示技术的优势及产业前景,完成了激光显示技术的研究阶段,开始了产业化发展进程.再下一代的显示技术将是空间高保真再现问题——三维显示. 相似文献
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作者在北京大学讲授非物理学科学生的课程《今日物理》的6年中,慢慢体会到讲授的特点,那就是从高处和远处看物理.对学生讲清楚物理学的基本轮廓、基本要点和发展脉络.从重要物理事件的发展看科学家如何处理问题,从科学家的言行看如何做研究.通过这些,让学生明白什么才是科学上重要的东西,培养学生创造性思维的方式.作者谨以文中的这些浅见求教于国内各位同行. 相似文献