...谱检测分析产品一回收溶剂 1.4鉴定方法 气一质联用技术l扫描范围(8cal'l range):50—800 8inu,电子能量(electron energy):70 eV,柱子:liP一5 MS.30 m×0.25 lllnl,0.25 um;测试条件:50℃保留 3min,升温速率:20℃/min,终温:240℃,汽化温度...
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电子能量损失谱 Electron energy loss spectroscopy ; EELS ; electron energy loss spectrum ; electron energy-loss spectrometry
电子能量损失谱仪 energy olss of electron spectrometer ; LEEELS ; electronic energy loss spectrometer ; EELS
电子能量损失能谱法 electron energy loss spectroscopy
电子能量分布 EEDF
电子能量损失谱法 electron energy lose spectroscopy
光电子能量 energy of photoelectron
反射电子能量损失谱 REELS
电子能量分布函数 EEDF ; electron energy distribution functions
光电子能量分布 [电子] energy distribution of photoelectron
Experimental results show Savitzky-Golay filtering of the divided I-V characteristic can bring low signal distortion rate and high accurate Electron Energy Probability Function(EEPF).
实验结果表明,SG算法对原始信号特征改变较少,求出的电子能量概率函数准确度较高。
参考来源 - SG滤波在朗缪尔探针信号处理中的应用·2,447,543篇论文数据,部分数据来源于NoteExpress
最里面的轨道上的电子能量最低。
这意味着两个电子能量降低,两个电子能量升高。
So this means that we have two of the electrons are lowered in energy, but two are raised in energy.
这很好理解,因为我们降低了能量,电子能量更低。
That makes sense because we're lower in energy, the electrons are now lower in energy.
No, OK and that's correct, because each photon of light actually has more energy than is needed to eject an electron.
没有,好,对了,因为每一个光子实际上,都有更多的能量去逐出一个电子。
Let's look at the energetics of one of those electrons crashing into a hydrogen atom inside the gas tube.
我们一起来考察一下,其中的一个电子的能量,在阴极射线管中,撞击到氢原子上。
Yes. In fact, there is not enough energy in a single photon to go ahead and eject an electron from this zinc surface.
是的,事实上,这里的光子没有足够的能量,去从锌表面逐出一个电子。
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