微重力条件下晶体生长过程的实时观察

从材料科学的微重力效应和晶体生长基本过程等两个方面出发，阐明了一种新的生长技术（晶体生长过程的光学实时观察法）的必要性，并介绍了空间高温实时观察装置的基本特性．在我国的科学技术探测卫星上，该装置进行了搭载实验，并首次清楚地观察到了空间溶质扩散效应和高温溶液的表面张力对流图像．     

短脉冲激光作用下丙酮液池沸腾现象的瞬态观测

本文对短脉冲激光作用下试件表面的温度变化和丙酮液体汽泡行为进行了瞬态观测,研 究了激光参数和细小金属颗粒等因素对丙酮液体沸腾行为的影响。结果表明：激光参数中,脉宽是 影响温度曲线和汽泡行为的主要因素,随着激光脉宽增大,大汽泡的长大时间和脱离直径减小;汽 泡长大速度与常规沸腾时的完全不同,没有出现等温生长阶段,在激光脉冲后很长时间内汽泡长大 速度快速增大;试件表面覆盖细小金属颗粒后,沸腾过程变得非常剧烈。     

基于压缩感知的振动数据修复方法

为解决旋转机械振动信号丢失数据修复的问题,提出一种基于压缩感知原理的振动数据修复方法.首先对采集到的不完整信号进行处理,将无信息输入时刻对应的数据用零元素填充得到有损信号,以单位矩阵为基础,根据有损信号中零元素的位置信息,构造对应于压缩感知框架下的观测矩阵;再根据待修复信号的特点并结合先验知识,构造或选择能够对振动信号进行稀疏表示的字典矩阵;然后使用高效且稳定的追踪算法,根据有损信号、观测矩阵以及字典矩阵重构原始信号,实现丢失振动数据的修复.使用仿真数据检验方法的有效性;使用实测的轴承振动状态数据验证方法对于振动数据的适用性,并通过比较完整信号、有损信号和修复信号对应的时域和频域特征值来检验数据修复效果.实验结果表明:本文方法能够有效地实现丢失数据的修复,且从统计特征的角度来看,相比于有损信号,修复信号能够更为准确地描述真实完整的振动信号.     

内陆河道表层水体反射光谱的走航观测研究

现场水体光谱观测是水体光学性质、水色遥感反演建模等研究不可或缺的基础性工作之一.常规的倾斜观测方法受其较为严格的观测几何条件限制,需要依据船体位置、太阳方位等不断调整观测角度,特别是针对河道水体光谱观测时,还须考虑河道走向、岸线遮蔽物等情况,因此,只能设置若干站点进行离散样点的观测,难以在岸线环境较为复杂的河道水体开展...     

实现同步轨道(GEO)高分辨力对地观测的技术途径(下)

在地球静止同步轨道(GEO)上实现高分辨力对地观测,具有一系列独特优点,远为其它轨道所不及。然而,对于36 000 km的远程高分辨力可见波段观测,要求望远镜必须具备20 m以上口径的主镜。传统的空间相机,如果要有如此大的口径,其总质量将超过1 000 t,无法发射到GEO上。无支撑薄膜望远镜和大口径衍射望远镜,可以大幅度降低主镜质量面密度,从而降低整个相机系统的总质量,可算是一种极好的技术途径。分步发射与在轨装配,则提供了可供此类观测系统实施从地面转运到GEO的技术手段。基于变换成像原理的傅里叶望远镜,将高分辨力的取得,由增大接收口径转变为加大发射间隔,用大面积回波能量探测加上傅里叶分量重构,取代常见的目标图像直接探测,突破了远程高分辨力观测的致命瓶颈。近完美透镜为突破衍射极限提供了可能性,从而为超分辨力观测开拓出一片科学的新天地。负折射率材料(左手型材料)可制成完美透镜,而光子晶体是负折射率材料的热门选择之一,基于表面等离子激元(SPP)的光子器件则是其另一种选择。     

短脉冲激光加热下液氮爆发沸腾实验观测

21世纪的超导研究将步入实用化阶段。在超导体工作中,其所处的低温环境(液氮、液氦)有可能受到瞬时高热流的冲击,从而导致爆发沸腾的发生,甚至影响到超导体的安全、稳定工作。对此,有必要进行系统的实验和理论研究,揭示低温工质的爆发沸腾现象与过程特征。本文就是基于这一目的,首次从实验角度观察液氮的爆发沸腾行为,拍摄到液氮爆发沸腾时的系列照片,并测量了脉冲加热期间以及之后的温度变化。发现了一些新颖并值得关注的现象。     

Optical and atomic force microscopic study on step bunching in BaB2O4 crystal growth

The formation of macrostep during high-temperature phase of barium meta-borate (α-BaB 2 O 4) single crystal growth has been investigated by both optical in-situ observation system and atomic force microscopy (AFM).The insitu observation results demonstrate that the critical linear size of growing facet exceeding the size that the macrostep generates is significantly anisotropic.The critical linear sizes are around 280 μm and 620 μm for {1010} and {1010} planes,respectively.AFM study illustrates that macrostep train with a height of 150 nm～200 nm is one typical morphological feature of the as-grown crystal surface.The riser of each macrostep consists of several straight and parallel sub-steps,indicating the occurrence of step bunching.Additionally,triangular sub-steps with heights of several nanometers on the treads of the macrosteps are found to be another typical feature of surface morphology,which implies a microscopically competitive bunching of sub-steps between various crystallographic orientations.     

利用弧形光栅尺测量大型转轴扭矩的原理研究

利用弧形光栅尺的旋转微位移测量功能,组建一组测量体系,用于测量巨型转轴的扭矩。采用四组相同的弧形光栅尺同时测量两截面的相对转角,通过多点测量实现误差均化,得出了消除转轴直径对测量影响的公式,使仪器的环境适应能力得到了极大地提高。根据不同的工作情况,提出了相应的动态测量扭矩的计算方程。实现了大型机械设备主传动的动力监测,为设备自动化、智能化奠定了基础。     

Undecidable Classical Properties of Observers

A property of a system is called actual, if the observation of the outcome of the test that pertains to that property yields an affirmation with certainty. We formalize the act of observation by assuming the outcome itself is an actual property of the state of the observer after the act of observation and correlates with the state of the system. For an actual property this correlation needs to be perfect. A property is called classical if either the property or its negation is actual. We show by a diagonal argument that there exist classical properties of an observer that he cannot observe perfectly. Because states are identified with the collection of properties that are actual for that state, it follows no observer can perfectly observe his own state. Implications for the quantum measurement problem are briefly discussed. PACS: 02.10-v, 03.65.Ta     

In situ observation of NaBi(WO4)2 dendrite growth and the study on microstructure of solidification

The dendrite growth process of transparent NaBi(WO4)2 with small prandtl and high melting point was studied by using the in-situ observation system. According to the dynamic images and detailed information, there are two kinds of restriction effect on the dendrite growth, the competition between arms and branches and the convection in the melt. The dendrite growth rate was time dependent, and the rate of arm growth reached the maximum 5.8 mm/s in the diffusive-advective region and rapidly decreased in the diffusive-convective region. The growth rate of branch had the same change trends as the arm's. Based on the EPMA-EDS data of solidification structure of quenched NaBi(WO4)2 melt, it was found that there were component differences from stoichiometric concentration in the melt near the interface during the growth process.