分布光纤喇曼光子传感器(D O F R P S)系统是一种实时测量空间温度场、应力场和压力场的光纤网络系统。
Distributed optical fiber Raman photonic sensor (DOFRPS) system is an optical fiber network used for the real-time measurement of temperature field, strain field and pressure field in the space.
费格斯说,照相机在光线昏暗的情况下需要使用闪光灯的原因是:闪光给照相机传感器提供大量额外光子,光线正是由这种粒子组成的。
That's why cameras use flashes in low-light environments: the flash gives the camera's sensors an extra dose of photons, the particles that make up light, Fergus says.
当发射光照到相机的传感器上时,每个像素点抓取一个特定的波长,并对匹配波长的光线进行电子放大。 从仅有几个光子的微弱的原始信号,放大到可见的强度。
That amplifies the original dim signal, composed of just a few photons, until it becomes visible.
表明它在光纤传感器、光子晶体天线、超宽色散补偿、光学集成电路等多方面具有广泛的应用前景。
There must be broad applications in photonic crystal fiber sensor, photonic crystal antennae, dispersion compensation and optics integrate circuit.
文章阐述了这种光子晶体光纤在强激光传送、粒子传输、传感器和孤子压缩等方面的应用。
We describes the extensive applications of photonic Bandgap-photonic Crystal Fibers in High-power laser beam transmission, particle transfer, sensor and soliton compression in detail.
文章分析了传感器Q值与光子晶体周期数及被探测液体厚度之间的关系。
It was analyzed how the photonic crystal periodicity and liquid thickness affect the Q value of the sensor.
传感器是利用光子效应的红外探测器。
The light acquisition sensor is uses the photon effect the infraredacquisition aid.
研究结果表明,光子晶体光纤在光纤传感器、光子晶体天线、超宽色散补偿、光学集成电路等多方面具有广泛的应用前景。
The result shows that the photonic crystal fiber will have a broad application in photonic crystal fiber sensor, photonic crystal antennae, dispersion compensation and optical integrated circuit.
利用数值模型计算了空气流过圆柱体的压力分布,并预言光子晶体压力传感器的响应。
For airflow around a circular cylinder, the pressure distribution is studied numerically, and the response of the pressure sensor is foretold.
通过研究带缺陷的一维光子晶体受压力后光带隙性能的变化,提出了改进型光子晶体压力传感器的理论模型。
The photonic band gap (PBG) property of a one-dimensional photonic crystal with a defect layer under pressure is studied, accordingly an improved model of pressure sensor is described.
传统的湿度传感器需要电力,而这种新型技术采用一种简单的高分子光子类晶体凝胶传感器,会有广阔的应用前景。
Whereas conventional humidity sensors require electrical power, this technique USES a simple polymer-based photonic crystal hydrogel that could find many practical applications.
传统的湿度传感器需要电力,而这种新型技术采用一种简单的高分子光子类晶体凝胶传感器,会有广阔的应用前景。
Whereas conventional humidity sensors require electrical power, this technique USES a simple polymer-based photonic crystal hydrogel that could find many practical applications.
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