Matter-wave interference in an axial triple-well optical dipole trap

This paper proposes a scheme of axial triple-well optical dipole trap by employing a simple optical system composed of a circular cosine grating and a lens. Three optical wells separated averagely by ～37 μm were created when illuminating by a YAG laser with power 1 mW. These wells with average trapping depth ～0.5 μK and volume ～74 μm³ are suitable to trap and manipulate an atomic Bose--Einstein condensation (BEC). Due to a controllable grating implemented by a spatial light modulator, an evolution between a triple-well trap and a single-well one is achievable by adjusting the height of potential barrier between adjacent wells. Based on this novel triple-well potentials, the loading and splitting of BEC, as well as the interference between three freely expanding BECs, are also numerically stimulated within the framework of mean-field treatment. By fitting three cosine functions with three Gaussian envelopes to interference fringe, the information of relative phases among three condensates is extracted.     

σ坐标系下浅水方程水平扩散项守恒型式

三维浅水模型控制方程经σ坐标变换后,其水平扩散项还存在一变换因子,故不能被常见的扩散模型表示成守恒型式。对σ坐标系下浅水方程水平扩散项进行处理,得到守恒型式的扩散模型,并采用垂向二维静水盐度扩散算例进行验证,结果表明守恒型模型能够保持初始的盐度分布。     

Study of A Geo-Acoustic Model of Gas-Bearing Sediment and Its Application in Sediment with Low Acoustic Velocity

A new geo-acoustic model for gas-bearing sediment is proposed based on the work of Dvorkin and Prasad, and Biot theory. Only five geophysical parameters: sediment mineral composition, free gas saturation, tortuosity (also known as the structure factor), permeability, and porosity, are considered in the model. A benefit of this model is that we need only five parameters instead of ten parameters in the Biot’s formulas for acoustic velocity and attenuation calculation. Here the model is demonstrated with the in-situ experimental data collected from the Hangzhou Bay, China. The results of this study suggest that free gas content in sediment is the most critical condition resulting in a low acoustic velocity (compressional wave). The respective contributions of the other four parameters in the model are also discussed.     

黄渤海大气气溶胶卫星观测与长期变化趋势分析

收集了中国黄渤海区域(112°~125°E,35°~45°N)2000—2009年10 a内MODIS气溶胶光学厚度AOD月均标准数据,按陆地和海洋(陆海)像元及海洋像元两类分别进行经验模态分解(EMD),结合南方涛动指数(SOI)和我国年度化石燃料消耗总量讨论黄渤海海区气溶胶时间变化特征及成因。研究表明该陆海区域大气气溶胶光学厚度6月份多为全年最高,海洋区域最高值出现在4—7月之间;秋冬季(10—次年2月)气溶胶光学厚度达到最低;EMD分解获得气溶胶具有4 a变化周期特性,与南方涛动指数的相关性均达到0.7,说明大气气溶胶同样受到全球气候变化的影响;与我国煤炭化石年消耗量相关系数达到0.98,该研究区气溶胶受陆源影响明显,人类活动对海洋环境的作用不容忽视。     

加强监管 落实责任 做好矿业权评估和储量评审工作

矿业权评估和储量评审工作在矿产资源管理中处于中介、中立地位,在矿业权市场建设中发挥着不可替代的重要作用.做好矿业权评估和储量评审工作,意义重大.     

精心组织统筹协调有力有序推进矿产资源利用现状调查工作

为全面掌握矿产资源利用现状,掌控全国矿产资源储量家底,加强矿业权管理,进一步做好矿产资源规划、管理、保护和合理利用工作,国土资源部决定在全国范围内开展矿产资源利用现状调查工作.     

努力破解保护与保障难题

在新的历史时期、新的发展阶段,全面开展深入学习实践科学发展观活动,是推进实施省党代会提出的"创业富民、创新强省"战略必然要求,是进一步推进特色社会主义的实践和行动,是建设全面小康社会的必由之路,是实现"率先实现、走在前列"的战略举措.     

做好储量工作服务科学发展

当前,我省正处在工业化、城镇化加快发展时期.今年二季度以来,我省经济呈现明显回升势头,企业信心明显增强,国际金融危机对我省实体经济的负面影响随着政策效应不断显现而明显减弱,经济发展态势良好,矿产资源开发和消费不断扩大,储量消耗的增长快于储量发现的增长,资源保障程度呈下降态势.矿产资源保障面临的突出问题是,需求持续增长,部分省内资源供需失衡,对外依存度攀高,利用两个市场和两种资源的风险在不断加大,形势比较严峻.     

国家海洋局第二海洋研究所自主研制的“多频海底声学原位测量系统”通过专家鉴定

近日,国家海洋局海洋科学技术司在杭州主持召开了“多频海底声学原位测量系统”科技成果鉴定会。来自国家海洋局第一海洋研究所、715所、国家海洋技术中心、浙江大学、杭州电子科技大学和中国计量学院等专家组成的鉴定委员会,听取了由陶春辉研究员代表成果完成单位所作的技术研究报告和工作报告,并审阅了查新报告、应用证明等相关资料。