Temperature of surfaces is an important physical parameter affecting metal target scattering characteristics.
目标的表面温度场是影响其激光散射特性的重要物理量。
Under the condition of radiative equilibrium, this paper examines the effects of surface emissivity and scattering albedo on radiative heat flux and temperature fields.
在辐射平衡的情况下,考察了表面发射率和散射反照率对介质内辐射热流和温度场的影响。
The high perpendicular temperature effect due to pitch Angle scattering and the relativistic effect are taken into account.
考虑了螺距角散射造成的高垂直温度效应(二维效应)和相对论效应。
The water sound speed and temperature can be calculated by measuring Brillouin scattering frequency shift.
借助测量水体布里渊散射的频移,可得到水体声速或温度。
Furthermore, temperature effects of scattering process are studied.
进而研究了温度对散射过程的影响。
The change of the resistivity with increasing temperature can be interpreted in terms of the phonon and the local spin fluctuation scattering.
随着温度增高,电阻率的变化可用声子及局域自旋涨落的散射来解释。
The results show that relative temperature differences between the linearly anisotropic scattering and isotropic scattering media are approximately proportional to the scattering asymmetry parameter.
结果表明,各向异性散射与各向同性散射介质间的相对温度差异与散射不对称参数近似成正比。
Deep research is taked on the distributed optic fiber temperature sensor in this thesis, and the distributed optic fiber sensor based on the Raman scattering is adoptioned.
本文在对各种分布式温度传感器进行比较分析的基础上,确定了所采用的基于拉曼散射的光纤温度传感方案。
This work expands the working field of Raman scattering technique, and provide a good method for detecting the temperature of the complex matters.
并开拓了激光拉曼散射光谱技术在电子学中的应用,也同时为测量复杂结构物体表面温度提供了较好的方法。
The relationship of the size of silver halide crystallites with heat treatment temperature has been studied by means of small-angle X-ray scattering (SAXS).
用X射线小角散射SAXS研究了光色玻璃中卤化银微晶尺寸同热处理温度的关系。
So far, a truly distributed and commercialized optical fiber temperature system is based on Raman scattering.
基于自发拉曼散射的光纤分布式温度测量系统是一种真正的分布传感系统且已商品化。
Moreover, the NH4HF2 content in the batch, the temperature distribution in the fiber-drawing furnace, and fiber drawing technology also have influence on the scattering loss of the fiber.
配合料中引入适量NH_4HF_2,选用温度结构合理的拉丝炉及拉丝工艺也有助于降低光纤的损耗。
The influence of the melt temperature on the crystalline morphology of polytetrafluoroethylene was studied by Small Angle Light Scattering and Electron Microscope techniques.
用小角光散射、电子显微镜等方法研究了熔体温度对熔融结晶的PTFE结晶形态的影响。
Spin-polarized properties, including the spin scattering length and the spin polarization, are investigated at the temperature ranging from 77 to 300k.
在77 ~ 30 0 K的温度范围内,对自旋散射长度、自旋极化率等自旋极化输运特性进行了研究。
The result shows that the frequency shift of Brillouin scattering light is scarcely influenced by air pressure and vapor pressure, and greatly affected by air temperature.
结果表明。布里渊散射光频移受大气压、水汽压的影响很小。而受大气温度的影响很大。
We review current progress in the neutron scattering studies of magnetic excitations in high-transition temperature (high-T_c) copper oxide superconductors.
文章回顾了中子散射在高温超导铜氧化合物磁激发研究中的最新进展。
This paper presents the principles of the Raman back-scattering effect based temperature sensing and the OTDR (Optical Time-Domain Reflectometry) based positioning.
本文介绍了光纤拉曼散射测温基本原理和基于光时域反射(OTDR)定位原理。
Raman scattering, SEM and UV spectrophotometer are used to analyse the structure changes of microcrystalline silicon films throughout the deposition temperature range.
用拉曼光谱、SEM和UV分光光度计对不同沉积温度下沉积的薄膜的结构特性进行分析。
Abstract: The principle of distributed temperature sensor system based on Raman Scattering and optical time domain reflectometer (OTDR) is explained.
摘要:阐述了基于拉曼背向散射和光时域反射(OTDR)技术的分布式光纤测温系统的原理。
The enhancement of MR effect at room temperature was mainly related to the coexistence of intrinsic MR properties and the spin dependent scattering of conduction electrons at the interfaces.
磁电阻的本征效应和传导电子在界面处的自旋相关散射作用是产生室温下增强磁电阻效应的主要原因。
Effects of different dopants and sintering temperature on the morphology of alumina crystallites were observed in detail by using light scattering observation apparatus, SEM, EDX and XRD.
用光学显微镜、电子扫描显微镜、能谱及X射线衍射分析,比较详细地观察了各种掺杂物和温度对氧化铝晶体形貌的影响。
Effects of different dopants and sintering temperature on the morphology of alumina crystallites were observed in detail by using light scattering observation apparatus, SEM, EDX and XRD.
用光学显微镜、电子扫描显微镜、能谱及X射线衍射分析,比较详细地观察了各种掺杂物和温度对氧化铝晶体形貌的影响。
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