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基于密度泛函理论计算了本征氧化锌、6.25%Mg以及同位、邻位、间位12.5%Mg原子掺杂氧化锌晶体的几何结构、原子轨道电子布居、静电势和电子结构特征;探究了Mg原子掺杂对氧化锌能带结构、态密度以及对应的光学性质和电学性质的影响。结果表明Mg掺杂会导致氧化锌晶体的晶格体积变大,载流子迁移率降低和吸收边蓝移;邻位双原子掺杂(ZnO+2Mg-ac、ZnO+2Mg-ad)可以显著降低氧化锌的光吸收系数和反射率,提升对太阳光的透过率;Mg掺杂氧化锌晶体适用于制作高质量光学透射膜。  相似文献   
2.
Bubble core fields as well bubble shape modification due to the nondepleted electrons inside the bubble is investigated theoretically. It is found that the slope of transverse fields are reduced significantly, however, the slope of longitudinal electric field, which plays a key role on electrons acceleration in bubble, changes little. Moreover a modified longitudinal compressed bubble shape leads to a shorter dephasing distance which makes the electrons acceleration energy reduced to some extent. As a comparison we perform particle-in-cell simulations whose results are consistent with that of our theoretical consideration.  相似文献   
3.
An optimizing scheme for electron acceleration in the wake bubble with dense-plasma wall driven by an ultraintense laser pulse is presented and investigated by particle-in-cell simulation. The wall has an inner diameter matching the expected lateral bubble size. The bubble shape can be transversely controlled and longitudinally shrunk. The accelerated electrons as a bunch have a high quality because the electrons almost stay close to the bottom of the bubble and are accelerated to much high energy with narrow energy spread.  相似文献   
4.
By using the nuclear reaction model for light nuclei, the calculations of the double-differential cross sections of outgoing neutrons from n +^9Be reactions are performed. The total outgoing neutrons are only come from the (n, 2n)2a reaction channel. The (n, 2n)2a reaction channel is achieved through six different reaction approach, which are illustrated in this paper. The calculated results agree very well with the measured data at En = 7.1, 8.09, 8.17, 9.09, 9.97 and 10.26 MeV, because the updated level schemes related to the n + ^9Be reactions have been employed in this calculations.  相似文献   
5.
In one-dimensional particle-in-cell simulations, this paper shows that the formation of multiple ion bunches is disadvantageous to the generation of monoenergetic ion beams and can be suppressed by choosing an optimum target thickness in the radiation pressure acceleration mechanism by a circularly polarised laser pulse. As the laser pulse becomes intense, the optimum target thickness obtained by a non-relativistic treatment is no longer adequate. Considering the relativistic Doppler-shifted pressure, it proposes a relativistic formulation to determine the optimum target thickness. The theoretical predictions agree with the simulation results well. The model is also valid for two-dimensional cases. The accelerated ion beams can be compelled to be more stable by choosing the optimum target thickness when they exhibit some unstable behaviours.  相似文献   
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