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27 results on '"Wen-Jun Guo"'

1. Improvement of electro-optic performances in white organic light emitting diodes with color stability by buffer layer and multiple dopants structure

Author

Zhiqi Kou, Feiyu Yang, Wen-Jun Guo, Yu Tang, and Liping Yang

Subjects
Materials science, Dopant, business.industry, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Luminance, Buffer (optical fiber), 0104 chemical sciences, OLED, Optoelectronics, 0210 nano-technology, business, Current density, Electrical efficiency, Layer (electronics), Voltage
Abstract

A series of white phosphorescent OLED devices with buffer layer and multiple dopant structure is investigated in order to obtain better electro-optic performances and color stability. The color coordinate and color stability are related to the location of multiple dopants layer, and the optimized location can compensate for the change of the blue emission intensity under a high voltage and stabilize the spectrum. The electro-optic performances and color stability can be further improved by changing the composition and thickness of the buffer layer between the emitting layer and the electron transport layer. In device B2, the distance from multiple dopant layer to buffer layer is 2 nm and the thickness of buffer layer is 5 nm, the maximum luminance, current density, and power efficiency can reach 9091 cd/m2, 364.5 mA/cm2, and 26.74 lm/W, respectively. The variation of international commission on the illumination (CIE) coordinate of device B2 with voltage increasing from 4 V to 7 V is only (0.006, 0.004).

Published
2018

2. Study of entropy in intermediate-energy heavy ion collisions

Author

Wen-Jun Guo, Kuo Wang, Xian-Jie Li, and Xiao-Ji Zhang

Subjects
Physics, Mass number, Nuclear and High Energy Physics, 010308 nuclear & particles physics, Reaction energy, Collision system, Astronomy and Astrophysics, Collision, 01 natural sciences, Intermediate energy, 0103 physical sciences, Heavy ion, Atomic physics, Entropy (energy dispersal), Impact parameter, Nuclear Experiment, 010306 general physics, Instrumentation
Abstract

Using the isospin-dependent quantum molecular dynamics model, the entropy of an intermediate-energy heavy ion collision system after the reaction and the number of deuteronlike and protonlike particles produced in the collision is calculated. In the collision, different parameters are used and the mass number used here is from 40 to 93 at incident energy from 150 MeV to 1050 MeV. We build a new model in which the density distribution of the reaction product is used to calculate the size of the entropy. The entropy calculated with this model is in good agreement with experimental values. Our data reveals that with the increase of the neutron-proton ratio and impact parameter, the entropy of the reaction system decreases, and it increases with the increase of system mass and reaction energy.

Published
2016

3. Covariance analysis of an isospin-dependent probe

Author

Kuo Wang, Jiang-Wei Huang, Xian-Jie Li, Xiao-Ji Zhang, and Wen-Jun Guo

Subjects
Physics, Nuclear and High Energy Physics, Nuclear Theory, Astronomy and Astrophysics, Covariance, Collision, Symmetry (physics), Deuterium, Isospin, Sensitivity (control systems), Atomic physics, Nuclear Experiment, Instrumentation, Beam (structure), Physical quantity
Abstract

Based on a modified quantum molecular dynamics model, we calculate the neutron-proton ratio and the nuclear stopping of reaction systems with different symmetry potentials and collision cross sections. We perform correlations of several probes using the covariance data processing method. It is shown that the correlation between the nuclear stopping and the isospin-dependent nucleon-nucleon cross sections is strong, but the nuclear stopping and symmetry potentials have a weak correlation. The correlation between neutron-proton ratio and symmetry potentials in the case of low energy is stronger. The correlation between neutron-proton ratio and isospin-dependent collision cross sections is enhanced with the increase of energy, but remains weak. In addition, the correlations of the emission numbers of the deuteron with the symmetry potentials and collision cross sections at different beam energies are not obvious compared to two prior physical quantities. In this paper, we define a parameter to quantitatively describe the sensitivity of isospin-dependent probes. By analyzing this parameter, one can extract more information about the isospin effects of the physical quantity.

Published
2015

4. Nucleon Emission Number as a Probe of Isospin-Dependent N—N Cross Section in Photonuclear Reactions

Author

Gao-Chan Yong, Wen-Jun Guo, Xiao-Ji Zhang, Ao Zhang, and Jiang-Wei Huang

Subjects
Physics, Photon, Astrophysics::High Energy Astrophysical Phenomena, Nuclear Theory, General Physics and Astronomy, Collision, Quantum molecular dynamics, Symmetry (physics), Nuclear physics, Cross section (physics), Isospin, Neutron, Atomic physics, Nuclear Experiment, Nucleon
Abstract

Based on the modified isospin-dependent quantum molecular dynamics model, the number of emitted nucleons in a photonuclear reaction is studied with different symmetry potentials and different isospin-dependent nucleon-nucleon (N—N) collision cross sections. It is found that the number of emitted nucleons is sensitive to the isospin-dependent nucleon-nucleon cross section when the photon's energy is higher than 150MeV, while it is insensitive to symmetry potential. The number of emitted neutrons is more sensitive to N—N collision cross sections than that of protons. It is realized that the number of emitted neutrons can be used as a sensitive probe to extract the information of the isospin-dependent N—N cross section at high energy photonuclear reactions.

Published
2014

5. Probing the symmetry potential with neutron-proton bremsstrahlung in heavy-ion collisions

Author

Xiao-Ji Zhang, Wen-Jun Guo, Yun-Peng Zhang, and Lin-Meng Yang

Subjects
Physics, Nuclear and High Energy Physics, Photon, Proton, Nuclear Theory, Bremsstrahlung, Astronomy and Astrophysics, Collision, Quantum molecular dynamics, Symmetry (physics), Heavy ion, Neutron, Atomic physics, Nuclear Experiment, Instrumentation
Abstract

In the framework of the isospin-dependent quantum molecular dynamics transport model (QMD), the effects of symmetry potential on the collision number and the neutron-proton bremsstrahlung photon in the reactions of 40Ca+40Ca, 124Sn+124Sn, 40Ca+64Zn, 40Ca+124Sn at different incident beam energies are studied. It is found that the collision number shows moderate sensitivity to the stiffness of the symmetry potential and the number of hard photons calculated with stiff symmetry potential is obviously smaller than that with soft symmetry potential. Thus, the neutron-proton bremsstrahlung photons produced in heavy-ion collisions may be a useful probe for the high-density behavior of the nuclear symmetry potential.

Published
2014

6. Isospin effect of the in-medium nucleon-nucleon cross section in excited nuclear reactions

Author

Wen-Jun Guo, Lin-Meng Yang, Ao Zhang, and Jiang-Wei Huang

Subjects
Nuclear reaction, Physics, Nuclear and High Energy Physics, Proton, Nuclear Theory, Astronomy and Astrophysics, Nuclear physics, Mean field theory, Excited state, Isospin, Neutron, Atomic physics, Nuclear Experiment, Nucleon, Ground state, Instrumentation
Abstract

Using relativistic mean field theory, the neutron and the proton density distribution of 56Ni nuclei could be obtained in the ground state and the excited state. Based on the framework of the quantum molecular dynamics model, the 56Ni nuclei have been simulated in ground state and in the neutron or proton excited state. We then used the three different states of 56Ni to collide with the 56Ni in the ground state. To discuss the evolution of the nuclear stopping in different reactions, two kinds of different excited nuclear reactions were studied at different reaction energies and at different impact parameters. Studies have shown that the nuclear stopping of an excited nuclear reaction is sensitive to the isospin-dependent in-medium nucleon-nucleon cross section, compared with the response value of the ground state nuclear reaction. So, it is better for the excited nuclei to extract the isospin dependence of nucleon-nucleon cross section information.

Published
2014

22. Single-Particle Properties of Isospin Asymmetric Nuclear Matter.

Author

Zeng-Hua, Li, Wei, Zuo, and Wen-Jun, Guo

Subjects
ISOBARIC spin, NUCLEAR matter, SYMMETRY (Physics), TWO-body problem (Physics), STATISTICAL correlation, OPERATOR theory, ANGULAR momentum (Nuclear physics)
Abstract

The single-particle potentials in isospin asymmetric nuclear matter is investigated in the framework of the Brueckner theory by adopting the realistic Bonn B two-body interaction in combination with a consistent microscopic three-body force. The rearrangement contribution induced by the ground state correlations to single-nucleon potentials is calculated in terms of the hole-line expansion of the mass operator. With the modification of this rearrangement term the symmetry potential is discussed as a function of momentum for several isospin asymmetries. [ABSTRACT FROM AUTHOR]

Published
2012
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24. Improvement of electro-optic performances in white organic light emitting diodes with color stability by buffer layer and multiple dopants structure.

Author

Zhi-Qi Kou, Yu Tang, Li-Ping Yang, Fei-Yu Yang, and Wen-Jun Guo

Subjects
ORGANIC light emitting diodes, BUFFER layers, SEMICONDUCTOR films, DOPING agents (Chemistry), ELECTRON transport
Abstract

A series of white phosphorescent OLED devices with buffer layer and multiple dopant structure is investigated in order to obtain better electro-optic performances and color stability. The color coordinate and color stability are related to the location of multiple dopants layer, and the optimized location can compensate for the change of the blue emission intensity under a high voltage and stabilize the spectrum. The electro-optic performances and color stability can be further improved by changing the composition and thickness of the buffer layer between the emitting layer and the electron transport layer. In device B2, the distance from multiple dopant layer to buffer layer is 2 nm and the thickness of buffer layer is 5 nm, the maximum luminance, current density, and power efficiency can reach 9091 cd/m2, 364.5 mA/cm2, and 26.74 lm/W, respectively. The variation of international commission on the illumination (CIE) coordinate of device B2 with voltage increasing from 4 V to 7 V is only (0.006, 0.004). [ABSTRACT FROM AUTHOR]

Published
2018
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