托雷斯 -桑切斯,与斯特拉斯克莱德大学的同事一起,正在试验当聚合物开始冒泡的时候,用低频率的超声波照射来“激发”熔融聚合物。
Torres-Sanchez, along with colleagues at Strathclyde University, is experimenting with low-frequency ultrasonic irradiation to ‘excite’ molten polymers as they begin to foam.
这样,当有光照射到材料上并激发激子后,所有激子将流向在纤维管的中心并在此集中。
Therefore, when light energy strikes the material, all of the excitons flow to the center of the fiber, where they are concentrated.
为判别这种光束是否可以用来分辨分子手性,他们将光束照射到荧光手性分子上,分子被激发后会发出荧光。
To see whether it could be used to distinguish between left and right-handed molecules, they shone it on fluorescent chiral molecules, which glow when they are excited.
光照射到这个感应芯片上面然后从硅原子中激发释放出电子,这样就产生了一个电信号然后通过芯片的电子器件转化成图像。
Light striking this detector liberates electrons from some of the silicon atoms, producing an electrical signal that is converted by the chip's electronics into a picture.
当金色纳米微粒收到肉眼不可见的更短波长的光照射时,它们将被激发并发出紫光。
When shorter wavelengths of light, invisible to the human eye, hit the gold nanoparticles, they get excited and start to glow violet.
当光子照射到材料表面时,电子受到光子的激发由一个能级跳到更高的能级上,而这些能级对材料来说是特定的。
When a photon strikes the surface, it excites an electron to a higher energy level, which is specific to the material.
原子受到外部能源的照射而激发。
The atoms are excited by being irradiated with energy from an external source.
直流电压下X射线对气隙、油隙放电的激发过程存在明显的“滞后”现象,即:正极性电压下X射线照射首先抑制放电的发生;
Under DC voltage the restraint and time lag phenomena of partial discharge (PD) in cavities or oil gap by X ray irradiation were investigated.
介绍了在低能范围内利用放射性同位素源发出的初级射线,照射和激发靶片元素产生的特征X射线的规律性;
The law of characteristic X-rays emitted by target element under the radiation of isotope source in a range of low energy is discussed.
卟啉是一类具有刚性的共轭大环类化合物,在光的照射下,易被激发,产生强荧光。
Porphyrins are a class of macrocyclic compounds with rigid conjugate structure, it can easily emit strong fluorescence under irradiation.
在荧光显微镜的蓝光激发下,被照射的细胞发绿光。
Irradiated cells emit green fluorescence excited by blue light.
在荧光显微镜的蓝光激发下,被照射的细胞发绿光。
Irradiated cells emit green fluorescence excited by blue light.
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