This paper relates to a set of virtual simulation experiment system of the Zeeman effect developed according to the teaching requirements for the Zeeman effect experiment. The corresponding relationship among changes in the magnetic field, optical elements and Zeeman split spectral lines can be intuitively observed from the interface of the system. The system can help observe the Zeeman effect and study the atomic energy level structure so as to obtain better experimental teaching effect, shorter experiment duration and higher utilization rate and safety of the equipment.
Using the first-principles calculations based on density functional theory (DFT-D2 method), we systematically study the structural, energetic and electronic properties of hydrogen atom adsorbed on pristine and metal atom (Li, Na, K, Ni, Pd and Pt) decorated GaN monolayer (GaN-ML). The results show that the metal decorated GaN-ML substrates shows a significant enhancement of adsorption the hydrogen atom than the pristine GaN-ML. Therefore, the use of metal-decorated gallium nitride for hydrogen storage improve the hydrogen storage effic
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