采用单双激发运动方程耦合簇(EOM-CCSD)以及多个包含迭代三激发在内的运动方程耦合簇变体(EOM-CCSDT-i,i=1a,1b,2,3和EOM-CC3)计算了HOF价层垂直电离势(VIP).在EOM-CCSD水平上优化出各价层电离态结构,得到绝热电离势(AIP),进一步计算出...采用单双激发运动方程耦合簇(EOM-CCSD)以及多个包含迭代三激发在内的运动方程耦合簇变体(EOM-CCSDT-i,i=1a,1b,2,3和EOM-CC3)计算了HOF价层垂直电离势(VIP).在EOM-CCSD水平上优化出各价层电离态结构,得到绝热电离势(AIP),进一步计算出谐振频率.同时对称匹配簇组态相互作用(SAC/SAC-CI)也被应用到部分计算.结果显示:EOM-CC3、EOM-CCSDT-3计算的VIP接近于全三激发运动方程耦合簇EOM-CCSDT结果;EOM-CC与SAC-CI值基本一致;同时发现HOF光电子能谱实验在2A'态指认上有误并重新进行归属.HOF的第三VIP应为16.9 e V,而非光电子能谱实验测得的16.0 e V.展开更多
The SrS∶HoF 3 Electroluminescent (EL) thin films are prepared at the different substrate temperature by electron beam evaporation. The crystallinity and EL characteristics of the samples are analyzed. It is found th...The SrS∶HoF 3 Electroluminescent (EL) thin films are prepared at the different substrate temperature by electron beam evaporation. The crystallinity and EL characteristics of the samples are analyzed. It is found that the main diffraction peak is (200) at the higher substrate temperature and the main diffraction peak is (111) at the lower substrate temperature. The blue emission intensity and EL brightness of the SrS∶HoF 3 thin films increase with the increase of the substrate temperature. Annealing the samples can change the cyrstal phase and strengthen the blue emission of EL thin film.展开更多
SrS∶HoF 3 thin film was prepared by double source method with electron beam evaporation. The fine structure of electroluminescence (EL) spectrum is found for the symmetry of the SrS∶HoF 3 thin film to be lower. Th...SrS∶HoF 3 thin film was prepared by double source method with electron beam evaporation. The fine structure of electroluminescence (EL) spectrum is found for the symmetry of the SrS∶HoF 3 thin film to be lower. The broadness of red peak is wider than that of ZnS∶HoF 3 thin film. Red EL emission in the SrS∶HoF 3 thin film comes from 5F 3 5I 7+ 5F 5 5I 8 transition. The intensity of blue and red emission increases obviously in the SrS∶HoF 3 EL spectrum and white EL is obtained. The EL mechanism of the SrS∶HoF 3 thin film is dominantly the energy transfer from the crystal host to luminescent centers by 4f 95d electrons.展开更多
This paper presents a human action recognition method. It analyzes the spatio-temporal grids along the dense trajectories and generates the histogram of oriented gradients (HOG) and histogram of optical flow (HOF)...This paper presents a human action recognition method. It analyzes the spatio-temporal grids along the dense trajectories and generates the histogram of oriented gradients (HOG) and histogram of optical flow (HOF) to describe the appearance and motion of the human object. Then, HOG combined with HOF is converted to bag-of-words (BoWs) by the vocabulary tree. Finally, it applies random forest to recognize the type of human action. In the experiments, KTH database and URADL database are tested for the performance evaluation. Comparing with the other approaches, we show that our approach has a better performance for the action videos with high inter-class and low inter-class variabilities.展开更多
文摘采用单双激发运动方程耦合簇(EOM-CCSD)以及多个包含迭代三激发在内的运动方程耦合簇变体(EOM-CCSDT-i,i=1a,1b,2,3和EOM-CC3)计算了HOF价层垂直电离势(VIP).在EOM-CCSD水平上优化出各价层电离态结构,得到绝热电离势(AIP),进一步计算出谐振频率.同时对称匹配簇组态相互作用(SAC/SAC-CI)也被应用到部分计算.结果显示:EOM-CC3、EOM-CCSDT-3计算的VIP接近于全三激发运动方程耦合簇EOM-CCSDT结果;EOM-CC与SAC-CI值基本一致;同时发现HOF光电子能谱实验在2A'态指认上有误并重新进行归属.HOF的第三VIP应为16.9 e V,而非光电子能谱实验测得的16.0 e V.
文摘The SrS∶HoF 3 Electroluminescent (EL) thin films are prepared at the different substrate temperature by electron beam evaporation. The crystallinity and EL characteristics of the samples are analyzed. It is found that the main diffraction peak is (200) at the higher substrate temperature and the main diffraction peak is (111) at the lower substrate temperature. The blue emission intensity and EL brightness of the SrS∶HoF 3 thin films increase with the increase of the substrate temperature. Annealing the samples can change the cyrstal phase and strengthen the blue emission of EL thin film.
文摘SrS∶HoF 3 thin film was prepared by double source method with electron beam evaporation. The fine structure of electroluminescence (EL) spectrum is found for the symmetry of the SrS∶HoF 3 thin film to be lower. The broadness of red peak is wider than that of ZnS∶HoF 3 thin film. Red EL emission in the SrS∶HoF 3 thin film comes from 5F 3 5I 7+ 5F 5 5I 8 transition. The intensity of blue and red emission increases obviously in the SrS∶HoF 3 EL spectrum and white EL is obtained. The EL mechanism of the SrS∶HoF 3 thin film is dominantly the energy transfer from the crystal host to luminescent centers by 4f 95d electrons.
基金supported by the MOST,Taiwan under Grant No.102-2221-E-468-013
文摘This paper presents a human action recognition method. It analyzes the spatio-temporal grids along the dense trajectories and generates the histogram of oriented gradients (HOG) and histogram of optical flow (HOF) to describe the appearance and motion of the human object. Then, HOG combined with HOF is converted to bag-of-words (BoWs) by the vocabulary tree. Finally, it applies random forest to recognize the type of human action. In the experiments, KTH database and URADL database are tested for the performance evaluation. Comparing with the other approaches, we show that our approach has a better performance for the action videos with high inter-class and low inter-class variabilities.