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.
表明这一迹象的是撞击掀起的尘土中显示的红外线光谱中的一些谱线,其频率与水分子能量激发时所发出光线的频率相应。
The telltales are specific "lines" in the spectrum of infra-red light from the plume. These correspond to the frequencies of light given off when water molecules are energetically excited.
计算结果表明:激发发射辐射比化学发光辐射重要,红外辐射比可见光辐射重要。
The results calculated show: collisional excitation radiations emitted are more important than chemiluminescent radiations; infrared radiations are more important than visible radiation.
提出了一种利用共焦光学结构来检测红外上转换材料被激发光的方法。
A novel detector with confocal optical configuration was fabricated for detecting the weak emission light of infrared up-conversion material.
在一部分没有显示循经红外辐射轨迹的受试者,针刺也可激发出沿该经脉的循经红外辐射轨迹。
For those subjects without infrared radiant track displayed over human body surface, acupuncture stimulates the infrared radiant track displayed along the meridians over human body surface, too.
光源输出的近红外波段和其他波长,可以用在特定荧光基团的激发。
The NIR outputs as well as other wavelengths can be used for targeted fluorophore excitation.
由超声分子束产生的多原子范德瓦尔斯分子的光谱可以通过红外半导体激光光谱仪进行探测,从而对处于基态和激发态的分子势能进行分析。
Diode laser spectroscopy of van der Waals polyatoms produced in supersonic beams is a source of information on the ground-and excited-state intermolecular potentials.
更重要的是,我们首次发现了Er0.3 Gd 0.7 VO4晶体材料的可见激发的三光子的有效的红外量子剪裁现象和浅紫外激发的四光子的有效的红外量子剪裁现象。
Especially, an effective three-photon and four-photon infrared quantum cutting of Er0.3Gd0.7VO4 crystalline excited by visible and near-violet light are found for the first time in the present paper.
X光和同步加速器辐射激发红外线光敏感剂将应用于各种分期的肺癌。
For better photosensitizers, infrared ranged photosensitizers excited by X-ray or Synchrotron radiation for example, will be useful for any stages of cancer.
可有效地被紫外―可见―近红外光激发,实现上转换和下转换发光,转换效率高。
It may be ultraviolet-visible light-near infrared excited to realize upwards and downwards conversion light emitting with high conversion efficiency.
可有效地被紫外―可见―近红外光激发,实现上转换和下转换发光,转换效率高。
It may be ultraviolet-visible light-near infrared excited to realize upwards and downwards conversion light emitting with high conversion efficiency.
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