随后进入衰退期,释放出中等大小的红外光子或是光子。
They subsequently "de-excite" and emit mid-infrared light particles, or photons.
当黑体变冷的时候,在一定的温度以下,它就不会再发出可见光而是放出红外光子。
When a black body cools down, at some point it no longer radiates light in the visible spectrum, giving off infrared photons instead.
光伏电池通常对光谱中的可见光和紫外线波段的光子受激性最好,但高频红外光子也能激发电流。
Photovoltaic cells are usually most responsive to photons in the visible and ultraviolet parts of the spectrum, but they can also respond to high-frequency infrared photons.
迄今为止关于量子点红外光子探测器(QDIP)的研究已有众多文献发表,涉及量子点生长、系统设计、建模、表征与测量等各方面。
A numerous papers covering different aspects of quantum dot infrared photodetector (QDIP) such as quantum dot growth, system design, modeling, characterization and testing, have been published so far.
相反,它们能够利用红外光的低能光子进行不产氧光合作用。
Instead, they rely on anoxygenic photosynthesis, which can function on the low-energy photons provided by infrared light.
我们运用这个理论解释或解决了肌肉收缩、电子传递、红外光的非热效应机理及生物光子发射等重要生物学问题。
We can explain the muscle contraction, electronic transfer in the living systems, mechanism of non-thermally biological effect of infrared lights absorbed and bio-photon emission, and so on.
频域近红外光谱系统利用一个高频正弦信号对光源进行调制,从而在大脑这类强散射介质中形成一种漫射光子密度波。
The frequency-domain NIRS instruments modulate the light with a RF sine wave, which generates diffuse photon density wave (DPDW) in turbid tissue like brain.
由于在近红外光谱区生物组织具有强散射特性,因此近红外光能够达到组织内部一定深度,使漫反射光子能够携带了生物组织的重要信息。
The near-infrared photons can reach a certain depth in the tissue because of their strong scattering characteristic, so the photons of diffuse reflectance take the information on biological tissues.
由于在近红外光谱区生物组织具有强散射特性,因此近红外光能够达到组织内部一定深度,使漫反射光子能够携带了生物组织的重要信息。
The near-infrared photons can reach a certain depth in the tissue because of their strong scattering characteristic, so the photons of diffuse reflectance take the information on biological tissues.
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