AIM: To study the effect of ginsenoside Rgl and Rhl on the anti - tumor activity of dendritic cells (DC). METHODS: Effect of Rgl and Rhl on the production of IL- 12 p40 protein was detected by ELISA, and the IL- 12 p4...AIM: To study the effect of ginsenoside Rgl and Rhl on the anti - tumor activity of dendritic cells (DC). METHODS: Effect of Rgl and Rhl on the production of IL- 12 p40 protein was detected by ELISA, and the IL- 12 p40 mRNA level of DC was monitored by RT- PCR. Anti - tumor activity of DC- LPAK was detemnined by neutral red staining assay. RESULTS: The results of ELLSA showed that Rgl and Rhl significantly enhanced the production of IL- 12 p40 of DC. Rgl at 1 mg/L and Rhl at 100 mg/L upregulated the IL- 12 p40 mRNA level. Rgl and Rhl enhanced the anti - tumor ability of DC, induced lyrnphokine and PHA activated killer (DC-LPAK) on human papillate tumor cell line. Each dose of Rgl can obviously accelerate the eytotoxity to L929 at the E: T ratio of 5 : 1 (P<0.05,0.01 ), while only Rhl 10 mg/L enhanced the eytotoxity ability of DC- LPAK (P < 0.05). CONCLUSION: Rgl and Rhl enhanced the production of IL-12 p40. This effect may be mediated by the increase in the mRNA level. As a result, Rg1 and Rhl oromote the ability of DC to stimulate the cytotoxitie aetieity of DC - LPAK.展开更多
Authors investigate the model that two two level atoms interact with a single mode cavity. The formulation of the time evolution operator for the two atom Jaynes Cummings model is presented by the bare states approach...Authors investigate the model that two two level atoms interact with a single mode cavity. The formulation of the time evolution operator for the two atom Jaynes Cummings model is presented by the bare states approach. Besides, squeezing effect of the cavity field is studied and some novel features are obtained.展开更多
A theoretical method to calculate multidimensional Franck-Condon factors including Duschinsky effects is described and used to simulate the photoelectron spectroscopy of the anion O-3. Geometry optimization and harmon...A theoretical method to calculate multidimensional Franck-Condon factors including Duschinsky effects is described and used to simulate the photoelectron spectroscopy of the anion O-3. Geometry optimization and harmonic vibrational frequency calculations have been performed on the AX~U4()1A1 state of O3 and AX~U4()2B1 state of O-3. Franck-Condon analyses and spectral simulation were carried out on the first photoelectron band of O-3. The theoretical spectrum obtained by employing CCSD(T)/6-311+G(2d,p) values are in excellent agreement with the observed one. In addition, the equilibrium geometry parameters, re(OO)= 0.135?5±0.000?5 nm and θe(O-O-O) =114.5±0.5°, of the AX~U4()2B1 state of O-3, are derived by employing an iterative Franck-Condon analysis procedure in the spectral simulation.展开更多
The model that two two level atoms interact with a singel mode cavity is studied. The exact solution of the time evolution operator for the two atom Jaynes Cummings model is presented by the bare states approach. Furt...The model that two two level atoms interact with a singel mode cavity is studied. The exact solution of the time evolution operator for the two atom Jaynes Cummings model is presented by the bare states approach. Furthermore, we investigate the dynamical properties of the photon statistics of the cavity field, and obtain a number of novel features.展开更多
Luminescence study from the silicon oxide filmsembedded nm carbon particles (CSO) and nm silicon particles (SSO) is of great importance in integrated optoelectronics. The pioneering work on electroluminescence (EL) fr...Luminescence study from the silicon oxide filmsembedded nm carbon particles (CSO) and nm silicon particles (SSO) is of great importance in integrated optoelectronics. The pioneering work on electroluminescence (EL) from the SSO was reported bu Dimaria et al.展开更多
In this paper, the general calculation formulas of radial matrix elements for relativistic n-dimensional hydrogen atom of spin S=0 are obtained, and the recurrence relation of different power order radial matrix eleme...In this paper, the general calculation formulas of radial matrix elements for relativistic n-dimensional hydrogen atom of spin S=0 are obtained, and the recurrence relation of different power order radial matrix elements are also derived.展开更多
The g-factors of the 2 3P, 2 1P, and 3 3P states of the helium atom are calculated by using the vatiational wave functions constructed from the linear combinations of Slater-type basis sets. The relativistic correctio...The g-factors of the 2 3P, 2 1P, and 3 3P states of the helium atom are calculated by using the vatiational wave functions constructed from the linear combinations of Slater-type basis sets. The relativistic corrections to order α 2(a.u.) and the effect of the motion of the center of mass are treated by using first-order perturbation theory. Most of our predicted results are in good agreement with recent results of Yan and Drake, which were obtained by using the wave functions with doubled Hylleraas coordinates. Based on the analysis of the convergence pattern in our calculation, we believe that our predicted value of the δg L-factor for 3 3P state in 4He, 2.914 15×10 -7 , ought to be reasonable and accurate, although there are no corresponding experimental data available in the liteature yet to be compared with.展开更多
For heavy atoms or ions, such as, Rb and Cs et al., relativistic effect must be considered in the calculation. In this paper, the relativistic many-body perturbation theory is used to solve the Dirac equation. And the...For heavy atoms or ions, such as, Rb and Cs et al., relativistic effect must be considered in the calculation. In this paper, the relativistic many-body perturbation theory is used to solve the Dirac equation. And the zeroth-order hyperfine constants are evaluated with Dirac-Fock wave function. The finite basis sets of dirac equation are constructed by B-splines. With the finite basis sets the core polarization and the correlation diagrams are calculated. The hyperfine structure constants of the 5S1/2 and 6S<sub>1/2 states of 85Rb as well as the 6S1/2 and 7S<sub>1/2 states of 133Cs are evaluated.展开更多
The structural and electronic properties of (CdSe)_n(1≤n≤5) clusters are calculated using density functional theory within the pseudopotential and generalized gradient approximations. The calculated binding energies...The structural and electronic properties of (CdSe)_n(1≤n≤5) clusters are calculated using density functional theory within the pseudopotential and generalized gradient approximations. The calculated binding energies and highest occupied molecular orbital-lowest unoccupied molecular orbital gaps are compared with those obtained within local density approximation.展开更多
We discuss the novel systematics and the calculation of autoionization and radiative decay rates of doubly excited states of atoms and ions where both electrons have high principal quantum numbers.
文摘AIM: To study the effect of ginsenoside Rgl and Rhl on the anti - tumor activity of dendritic cells (DC). METHODS: Effect of Rgl and Rhl on the production of IL- 12 p40 protein was detected by ELISA, and the IL- 12 p40 mRNA level of DC was monitored by RT- PCR. Anti - tumor activity of DC- LPAK was detemnined by neutral red staining assay. RESULTS: The results of ELLSA showed that Rgl and Rhl significantly enhanced the production of IL- 12 p40 of DC. Rgl at 1 mg/L and Rhl at 100 mg/L upregulated the IL- 12 p40 mRNA level. Rgl and Rhl enhanced the anti - tumor ability of DC, induced lyrnphokine and PHA activated killer (DC-LPAK) on human papillate tumor cell line. Each dose of Rgl can obviously accelerate the eytotoxity to L929 at the E: T ratio of 5 : 1 (P<0.05,0.01 ), while only Rhl 10 mg/L enhanced the eytotoxity ability of DC- LPAK (P < 0.05). CONCLUSION: Rgl and Rhl enhanced the production of IL-12 p40. This effect may be mediated by the increase in the mRNA level. As a result, Rg1 and Rhl oromote the ability of DC to stimulate the cytotoxitie aetieity of DC - LPAK.
文摘Authors investigate the model that two two level atoms interact with a single mode cavity. The formulation of the time evolution operator for the two atom Jaynes Cummings model is presented by the bare states approach. Besides, squeezing effect of the cavity field is studied and some novel features are obtained.
基金SupportedbytheNationalNaturalScienceFoundationofChina(No.20073042)TheNaturalScienceFoundationofAnhuiProvince (No .2 0 0 1kj2 63zc)
文摘A theoretical method to calculate multidimensional Franck-Condon factors including Duschinsky effects is described and used to simulate the photoelectron spectroscopy of the anion O-3. Geometry optimization and harmonic vibrational frequency calculations have been performed on the AX~U4()1A1 state of O3 and AX~U4()2B1 state of O-3. Franck-Condon analyses and spectral simulation were carried out on the first photoelectron band of O-3. The theoretical spectrum obtained by employing CCSD(T)/6-311+G(2d,p) values are in excellent agreement with the observed one. In addition, the equilibrium geometry parameters, re(OO)= 0.135?5±0.000?5 nm and θe(O-O-O) =114.5±0.5°, of the AX~U4()2B1 state of O-3, are derived by employing an iterative Franck-Condon analysis procedure in the spectral simulation.
文摘The model that two two level atoms interact with a singel mode cavity is studied. The exact solution of the time evolution operator for the two atom Jaynes Cummings model is presented by the bare states approach. Furthermore, we investigate the dynamical properties of the photon statistics of the cavity field, and obtain a number of novel features.
基金Supported by the National Natural Science Foundation of China(60276015)the Key Project of Ministry of Education of China(2041391 and the Foundation of Northwest Normal University(NWNU-KJCXGC-214).
文摘Luminescence study from the silicon oxide filmsembedded nm carbon particles (CSO) and nm silicon particles (SSO) is of great importance in integrated optoelectronics. The pioneering work on electroluminescence (EL) from the SSO was reported bu Dimaria et al.
文摘In this paper, the general calculation formulas of radial matrix elements for relativistic n-dimensional hydrogen atom of spin S=0 are obtained, and the recurrence relation of different power order radial matrix elements are also derived.
文摘The g-factors of the 2 3P, 2 1P, and 3 3P states of the helium atom are calculated by using the vatiational wave functions constructed from the linear combinations of Slater-type basis sets. The relativistic corrections to order α 2(a.u.) and the effect of the motion of the center of mass are treated by using first-order perturbation theory. Most of our predicted results are in good agreement with recent results of Yan and Drake, which were obtained by using the wave functions with doubled Hylleraas coordinates. Based on the analysis of the convergence pattern in our calculation, we believe that our predicted value of the δg L-factor for 3 3P state in 4He, 2.914 15×10 -7 , ought to be reasonable and accurate, although there are no corresponding experimental data available in the liteature yet to be compared with.
文摘For heavy atoms or ions, such as, Rb and Cs et al., relativistic effect must be considered in the calculation. In this paper, the relativistic many-body perturbation theory is used to solve the Dirac equation. And the zeroth-order hyperfine constants are evaluated with Dirac-Fock wave function. The finite basis sets of dirac equation are constructed by B-splines. With the finite basis sets the core polarization and the correlation diagrams are calculated. The hyperfine structure constants of the 5S1/2 and 6S<sub>1/2 states of 85Rb as well as the 6S1/2 and 7S<sub>1/2 states of 133Cs are evaluated.
文摘The structural and electronic properties of (CdSe)_n(1≤n≤5) clusters are calculated using density functional theory within the pseudopotential and generalized gradient approximations. The calculated binding energies and highest occupied molecular orbital-lowest unoccupied molecular orbital gaps are compared with those obtained within local density approximation.
文摘We discuss the novel systematics and the calculation of autoionization and radiative decay rates of doubly excited states of atoms and ions where both electrons have high principal quantum numbers.
