1) Spectral response function
光谱响应函数
1.
To reduce the spectral distortion in IHS fusion,fusion process was analyzed by spectral response function,bias and gains of the CCD sensor based on imaging mechanism,and it was simulated from spectral density to the panchromatic images and multi-spectral image.
针对色度融合容易产生光谱扭曲的现象,本文利用光谱响应函数,传感器偏置和增益等参数从成像机理的角度解释了IHS融合。
2) Light output function
光响应函数
3) spectral response function
波谱响应函数
1.
This article analyzes the influence of band spectral response function and band width to land surface temperature inversion.
分析了波谱响应函数和波宽对红外数据反演地表温度的影响。
4) optical response function
光学响应函数
1.
Using a non-hermitian Hamiltonian and considering the influence of reflected wave,the authors obtain the analytical form of the optical response function and the existence of intrinsic optical bistability in the crystalline organic semiconductor quantum well, and find that the influence may help understand the measurement data.
从一个非厄米的哈密顿出发,在考虑界面反射的情况下,用密度矩阵的办法得到了有机物量子阱中的光学响应函数和内禀光学双稳态,发现反射波的影响对我们理解实验结果可能是有益的。
5) baseband response function
基带响应函数<光>
6) Spectrum response
光谱响应
1.
The knowledge of operation amplifier and spectrum response is applied in this experiment.
实验涉及到运算放大器以及硅光电池光谱响应等基础知识。
2.
The spectrum response semibreadth of the single junction ZnSe solar cell is 365-450nm under AM1, and the maximum of external quantum efficiency presents to 400nm.
单结ZnSe光电池在AM1条件下光谱响应半宽度范围365~450nm,波长为400nm时量子效率最大。
3.
The spectrum response characteristics of the devices were measured and analyzed.
测试分析了该器件的光谱响应特性,响应范围为200~400nm,在室温和一定反偏压下,响应峰值为313nm,半宽为65nm。
补充资料:光谱响应
分子式:
CAS号:
性质: 又称光谱灵敏度。以光电倍增管、二极管阵列或光学成像器件等为系统时的光谱输出量和光谱照度之商。s(λ)=dy(λ)/dEe(λ),简式为s(λ)=yλ/Eλ。式中yλ为辐照波长为λ时输出信号的大小,Eλ为在同一波长下垂直入射的平行光的光谱照度。
CAS号:
性质: 又称光谱灵敏度。以光电倍增管、二极管阵列或光学成像器件等为系统时的光谱输出量和光谱照度之商。s(λ)=dy(λ)/dEe(λ),简式为s(λ)=yλ/Eλ。式中yλ为辐照波长为λ时输出信号的大小,Eλ为在同一波长下垂直入射的平行光的光谱照度。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条