红外测温的物理基础是黑体辐射定律。
The physical principle of infrared measuring temperature is blackbody radiation law.
验证了黑体辐射的基本规律。
黑体辐射的光谱分配由普朗克定律描述。
The spectral distribution of a black body radiation is described by planck's.
然后在中红外波段扫描该部位的黑体辐射。
The region is then scanned for black body radiation in a medium infrared waveband.
电子对黑体辐射的回应,产生一种微小渗透到空间的热场。
The electrons respond to black-body radiation, a subtle heat field that permeates space.
黑体辐射总是一系列发射和吸收过程的综合结果。
Blackbody radiation always is the result of a succession of emission and absorption processes.
色度图中,表征不同温度下黑体辐射的色坐标的点的轨迹。
The locus of points in a chromaticity diagram that represents chromaticities of the radiation of Planckian radiators at different temperatures.
例如,他关于物质内部分子运动的计算与黑体辐射实验结果不相符。
His calculations regarding the internal motion of molecules did not agree with measurements of specific heats, for instance.
再对该黑体辐射源进行了不确定度评定,评定结果符合设计的要求。
Evaluate the uncertainty of blackbody radiation, and the result corresponds the designed request.
性能测试结果表明,该黑体辐射源可用于遥感探测器中的红外辐射定标。
The experimental results show that this blackbody source can be used in the radiometric calibration of remote sensing detectors.
黑体辐射和光电效应等现象揭示了光还具有微粒性,即光具有波粒二象性。
Such as blackbody radiation and photoelectric effect of light also has revealed the phenomenon of particle, ie, with wave-particle duality of light.
黑体辐射反问题就是利用测量的黑体辐射能量谱确定黑体的区域温度分布。
The inverse blackbody radiation problem is used for determining the area-temperature distribution of a blackbody from measured total radiated power spectrum.
本文从平均粒子数定义式出发,利用热力势公式推出了黑体辐射的分布公式。
This article deduces the distribution formula of blackbody radiation by using thermodynamics potential formula from the definition formula of average particle number.
将实际物体热辐射与理想的黑体辐射特性对比,建立了实际物体热辐射模型;
The actual object heat radiation model is established after comparing the actual object heat radiation to the ideal black body radiation.
圆管壁为漫发射、漫反射镜反射混合分布,管底部为假想的圆形黑体辐射器。
The study is for diffusely emitting, diffusely and specularly reflecting inner wall of tube and its bottom black body surface of a fictitious circle burner.
根据普朗克黑体辐射定律,计算了金属桥箔和桥丝电爆炸后,等离子体产物的辐射温度。
According to Planck radiation law, the radiation plasma temperatures of the exploding foils and exploding wires were calculated.
在NIF采用的惯性约束聚变方法中,靶是一个厘米尺度的金制圆柱体,也叫做黑体辐射腔。
In the approach Nif takes, called inertial confinement fusion, the target is a centimetre-scale cylinder of gold called a hohlraum.
就目前的泵浦激光条件,采用窄带辐射和黑体辐射可进行水窗波段X光显微成像的实验研究。
With the present lasers, X-ray microscopy can be made using narrow band emission or black body radiation from laser plasmas.
首先建立了场景的3d物理模型,然后根据黑体辐射理论分别计算出背景与目标的红外辐射特性。
First, a 3d physics model is constructed. Afterwards, the infrared radiation characters of background and targets are calculated respectively according to the blackbody radiation theory.
它用可调制半导体激光器替代黑体辐射源,通过VC调用MATLAB来实现图形的输出和时间常数的计算。
This system bases on semiconductor modulated laser, which replaces blackbody radiation source, and uses the technology of VC call MATLAB realizing graphic model output and time constant calculate.
量纲分析是研究物理问题的重要方法之一。本文对量纲分析的解题步骤做了梳理归纳,并对于黑体辐射公式进行了量纲分析。
Dimensional analysis is an important approach to study various physical problems. In this paper, the formula of blackbody radiation is deduced by using the dimensional analysis.
测量中使用了红外辐射计,并用圆柱形镜反射腔获得温度同地物相同的黑体辐射,并由已知比辐射率的参考板标定环境辐射。
Measurements can be made with an infrared radiometer. Blackbody radiation at the same temperature of the object is obtained using a cylindrical direct reflection cavity.
水中放电等离子体(PPDW)具有高压、高密度和低温、低电离度的特点,人们对其辐射是否具有黑体辐射的特点一直观点不一。
Plasma in a pulsed discharge in water (PPDW) has the character of high pressure, high density and low temperature, low ionized degree.
这个奖授予宇宙微波背景辐射的黑体谱形和各向异性的发现,强有力地支持了大爆炸宇宙学。
It was awarded for the discovery of the blackbody spectrum and anisotropy of the cosmic microwave background radiation which strongly supports the big bang theory of cosmology.
根据克希霍夫定律,一个黑体也放射出尽可能多的辐射热量。
After kirchhoff's law a black body also emits the maximum possible amount of radiant heat.
正常流态的光谱能量密度和辐射压强都比普通黑体大并且随温度单调增加。
Both spectral energy density and radiation pressure of the normal fluid are larger than those of the normal blackbody, furthermore, they are monotonically increasing functions of temperature.
这个奖授予宇宙微波背景辐射的黑体谱形和各向异性的发现,强有力地支持了大爆炸宇宙学。
It was awarded for the discovery of the blackbody spectrum and anisotropy of the cosmic microwave background radiation, which strongly supports the big bang theory of cosmology.
这个奖授予宇宙微波背景辐射的黑体谱形和各向异性的发现,强有力地支持了大爆炸宇宙学。
It was awarded for the discovery of the blackbody spectrum and anisotropy of the cosmic microwave background radiation, which strongly supports the big bang theory of cosmology.
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