2014年度发表论文 点击下载
From 81-151
81. M. Yang, L. L. Wang, H. B. Zhou and S. D. Zhang, Study on turbulent mixing induced by Richtmyer-Meshkov instability using the second-order moment model, Chinese Journal of Computational Mechanics, (2014), 31:5 (In Chinese)
82. W. H. Liu, C. P. Yu, W. H. Ye, L. F. Wang and X. T. He, Nonlinear theory of classical cylindrical Richtmyer-Meshkov instability for arbitrary Atwood numbers, Phys. Plasmas, (2014), 21: 062119
83. J. F. Wu, W. Y. Miao, L. F. Wang, Y. T. Yuan, Z. R. Cao, W. H. Ye, Z. F. Fan, B. Deng, W. D. Zheng, M. Wang, W. B. Pei, S. P. Zhu, S. E. Jiang, S. Y. Liu, Y. K. Ding, W. Y. Zhang and X. T. He. Indirect-drive ablative Rayleigh-Taylor growth experiments on the Shenguang-II laser facility. Phys. Plasmas, (2014), 21: 042707
84. L. F. Wang, J. F. Wu, W. H. Ye, Z. F. Fan and X. T. He. Design of an Indirect-Drive Pulse Shape for ~1.6 MJ Inertial Confinement Fusion Ignition Capsules, Chin. Phys. Lett., (2014), 31(4): 045201
85. H. Y. Guo, X. J. Yu, L. F. Wang, W. H. Ye, et.al, On the Second Harmonic Generation through Bell-Plesset Effects in Cylindrical Geometry, Chin. Phys. Lett., (2014), 31(4): 044702
86. K. G. Zhao, L. F. Wang, W. H. Ye, et.al, Incompressible Magnetohydrodynamic Kelvin–Helmholtz Instability with Continuous Profiles, Chin. Phys. Lett., (2014), 31(3): 030401
87. W. Y. Zhang, W. H. Ye, J. F. Wu, W. Y. Miu, Z. F. Fan, L. F. Wang, J. F. Gu, Z. S. Dai, Z. R. Cao, X. W. Xu, Y. T. Yuan, D. G. Kang, Y. S. Li, X. J. Yu, C. L. Liu, C. Xue, W. D. Zheng, M. Wang, W. B. Pei, S. P. Zhu, S. E. Jiang, S. Y. Liu, Y. K. Ding and X. T. He, Hydrodynamic instabilities of laser indirect-drive inertial-confinement-fusion implosion, SCIENTIA SINICA Physica, Mechanica &Astronomica, (2014),44:1 (In Chinese)
88. H. B. Cai, S. Z. Wu, J. F. Wu, M. Chen, H. Zhang, M. Q. He, L. H. Cao, C. T. Zhou, S. P. Zhu and X. T. He, Review of the current status of fast ignition research at the IAPCM, High Power Laser Science and Engineering, (2014), Vol. 2, e6, 9
89. Y. H. Xue, J. Markmann, H. L. Duan, J. Weissmuller and P. Huber, Switchable imbibition in nanoporous gold, Nature Communications, (2014), 5: 4237
90. W. Quan, X. Y. Lai, Y. J. Chen, C. L. Wang, Z. L. Hu, X. J. Liu, X. L. Hao, J. Chen, et.al, Quantum Orbits: a Powerful Concept in Laser-Atom Physics, Chinese Journal of Physics, (2014), 52: 1-II
91. Z. Y. Lin, M. Y. Wu, W. Quan, X. J. Liu, J. Chen and Y. Cheng, The Coulomb effect on a low-energy structure in above-threshold ionization spectra induced by mid-infrared laser pulses, Chin. Phys. B, (2014), Vol. 23, No. 2: 023201
92. Y. Li, S. P. Yang, J. Chen and J. Fan, Non-sequential double ionization of diatomic molecules: alignment dependence of electron correlation, J. Phys. B: At. Mol. Opt. Phys.,(2014), 47: 045601
93. Z. L. Hu, X. Y. Lai, X. J. Liu and Jing Chen, Above-threshold ionization of diatomic molecules in an intense laser field: Molecular alignment effects, Physical Review A, (2014), 89: 043401
94. X. L. Hao, J. Chen, W. D. Li, et.al, Quantum Effects in Double Ionization of Argon below the Threshold Intensity, Physical Review Letters, (2014), 112: 073002
95. G. H. Li, J. P. Yao, C. J. Zhang, B. Zeng, W. Chu, J. L. Ni, J. Chen, et.al, High-Order Harmonic Generation Driven by Two-Color Laser Fields, Chinese Journal of Physics, (2014), 52: 1-II
96. D. F. Li, P. Zhang and J. Yan, Ab initio molecular dynamics study of high-pressure melting of beryllium oxide, Scientific Reports, (2014), 4: 4707
97. D. F. Li, H. T. Liu, S. L. Zeng, C. Wang, Z. Q. Wu, P. Zhang and J. Yan, Quantum molecular dynamics study of expanded beryllium: Evolution from warm dense matter to atomic fluid, Scientific Reports, (2014), 4: 5898
98. R. Li, T. Lu, Y. L. Wang and W. Q. Yao, Numerical Validation for High Order Hyperbolic Moment System of Wigner Equation, Commun. Comput. Phys., (2014), 51: 565-595
99. W. Q. Yao and T. Lu, Numerical Comparison of Three Stochastic Methods for Nonlinear PN Junction Problems, Front. Math. China, (2014), 9(3): 659–698
100. Z. C. Hu, R. Li, T. Lu, Y. L. Wang and W. Q. Yao, Simulation of an n+-n-n+ Diode by Using Globally-Hyperbolically-Closed High-Order Moment Models, J Sci Comput, (2014), 59: 761–774
101. H. Y. Jiang, T. Lu and W. Cai, A device adaptive inflow boundary condition for Wigner equations of quantum transport, Journal of Computational Physics, (2014), 258: 773–786
102. R. Li, T. Lu and Z. P. Sun, Stationary Wigner Equation with Inflow Boundary Conditions: Will a Symmetric Potential Yield a Symmetric Solution? Siam J. Appl. Math., (2014), 74(3): 885–897
103. G. Xu, G. C. Zhang, Y. J. Li and H. Li, Modeling and Simulation of Nonequilibrium and Multiphase Complex Systems |Lattice Boltzmann kinetic Theory and Application, Progress in Physics, (2014), 34: 3 (In Chinese)
104. D. Lin, A. G. Xu, G. C. Zhang, Y. J. Li and S. Succi, Polar-coordinate lattice Bolztamm modeling of compressible flow, Physical Review E, (2014), 89: 013307
105. Y. B. Gan. A. G. Xu, G. C. Zhang, et.al, Lattice Boltzmann kinetic modeling and simulation of thermal liquid-vapor system, International Journal of Modern Physics C, (2014), 25(11): 1441002
106. D. Lin, A. G. Xu, G. C. Zhang and Y. J. Li, Polar Coordinate Lattice Boltzmann Kinetic Modeling of Detonation Phenomena, Commun. Theor. Phys., (2014), 62: 737-748
107. H. Miao, C. Tan, X. L. Zhou, X. Y. Wei and F. X. Li, More ferroelectrics discovered by switching spectroscopy piezoresponse force microscopy? EPL, (2014), 108: 27010
108. J. Fu and F. X. Li, An Extended Scanning Probe Microscopy System for Macroscopic Topography Imaging, Microscopy Research and Technique, (2014), 77: 749-753 (Cover paper)
109. J. Fu, X. L. Zhou and F. X. Li, An adaptive nanoindentation system based on electric bending of a piezoelectric cantilever, Sensors & Actuators A: Physical,(2014), 216: 249-256
110. J. Fu, X. L. Zhou, Y. H. Guo and F. X. Li, Viscoelasticity mapping method based on the contact resonance of a piezoelectric cantilever, Polymer Testing, (2014), 37: 138-147
111. H. M. Miao, Y. Sun, X. L. Zhou, Y. W. Li and F. X. Li, Piezoelectricity and ferroelectricity of cellular polypropylene electrets films characterized by piezoresponse force microscopy, J Appl Phys,(2014), 116: 066820
112. X. L. Zhou, J. Fu, C. H. Miao and F. X. Li, Contact resonance force microscopy with higher-eigenmode for nanoscale viscoelasticity measurements, J Appl Phys, (2014), 116: 034310
113. Y. W. Li and F. X. Li, The effect of domain patterns on 180-degree domain switching in BaTiO3 crystals during antiparallel electric field loading, Appl Phys Lett, (2014), 104: 042908
114. X. L. Zhou, J. Fu, Y. W. Li, F. X. Li, Nanomechanical mapping of glass fiber reinforced polymer composites using atomic force acoustic microscopy, J Appl Polymer Sci, (2014), 131(2): 39800
115. X. L. Zhou and F. X. Li, Simulations of nonlinear deformations in Ni-Ti shape memory alloys under tension/compression using an energy minimization model, Comp Mater Sci, (2014), 81: 530-537
116. T. X. Niu and G. X. Cao, Finite size effect does not depend on the loading history in soft matter indentation, J. Phys. D: Appl. Phys., (2014), 47: 385303
117. G. X. Cao, Atomistic Studies of Mechanical Properties of Graphene, Polymers, (2014), 6: 2404-2432
118. T. X. Niu and G. X. Cao, Power-law rheology characterization of biological cell properties under AFM indentation measurement, RSC Adv., (2014), 4: 29291
119. H. L. Liu and G. X. Cao, Super Energy Absorption System Based on Nanofluidic Glycerol Solution, J. Phys. Chem. C, (2014), 118: 25223−25233
120. C. Wang, Y. J. Zhang, Z. Q. Wu and P. Zhang, Electrical and optical properties of fluid iron from compressed to expanded regime, Physics of Plasmas (1994-present),(2014), 21: 032711
121. C. Wang, Z. B. Wang, Q. F. Chen and P. Zhang, Quantum molecular dynamics study of warm dense iron, Physical Review E, (2014), 89: 023101
122. Y. T. Yang, J. C. Wang, Y. P. Shi, Z. L. Xiao, X. T. He and S. Y. Chen, Interactions between inertial particles and shocklets in compressible turbulent flow, Physics of Fluids (1994-present), (2014), 26: 091702
123. Q. Sheng, L. Wang, C. M. Wang, X. W. Wang and J. M. Xue, Fabrication of nanofluidic diodes with polymer nanopores modified by atomic layer deposition, Biomicrofluidics, (2014), 8: 052111
124. T. F. Yang, C. X. Wang, C. A. Taylor, X. J. Huang, Q. Huang, F. Z. Li, L. Shen, X. B. Zhou, J. M. Xue, S. Yan and Y. G. Wang, The structural transitions of Ti3AlC2 induced by ion irradiation, Acta Materialia, (2014), 65: 351–359
125. L. F. Wang, H. Y. Guo, J. F. Wu, W. H. Ye, J. Liu, W. Y. Zhang and X. T. He, Weakly nonlinear Rayleigh-Taylor instability of a finite-thickness fluid layer, Phys. Plasmas, (2014), 21: 122710
126. Z. F. Fan, X. T. He, J. Liu, G. L. Ren, B. Liu, J. F. Wu, L. F. Wang and W. H. Ye, A wedged-peak-pulse design with medium fuel adiabat for indirect-drive fusion, Phys. Plasmas, (2014), 21: 100705
127. Y. L. Ping, J. Y. Zhong, Z. M. Sheng, X. G. Wang, B. Liu, Y. T. Li, X. Q. Yan, X. T. He, J. Zhang and G. Zhao,Three-dimensional fast magnetic reconnection driven by relativistic ultraintense femtosecond lasers, Physical Review E, (2014), 89: 031101(R)
128. S. Y. Chen, Z. W. Wu and K. X. Liu, Atomic diffusion across Ni50Ti50-Cu explosive welding interface: Diffusion layer thickness and atomic concentration distribution, (2014), Chin. Phys. B, 23(6): 066802
129. S. Y. Wu, K. X. Liu and Q. Y. Chen, A three-dimensional Eulerian method for the numerical simulation of high-velocity impact problems, Chin. Phys. B, (2014), 23(3): 034601
130. Z. Fu, K. X. Liu and N. Luo, Simulation of shock-induced instability using an essentially conservative adaptive CE/SE method. Chin. Phys. B, (2014), 23(2): 020202
131. H. Shen, C. Y. Wen, K. X. Liu and D. L. Zhang, Robust high-order space-time conservative schemes for solving conservation laws on hybrid meshes, Journal of Computational Physics,(2014), 281: 375-402
132. S. Y. Wu, Q. Y. Chen, K. X. Liu and N. Luo, A front tracking algorithm for hypervelocity impact problems with crack growth, large deformations and high strain rates. International Journal ofImpact Engineering, (2014), 74: 145-156
133. Z. W. Wu, M. Z. Li, W. H. Wang and K. X. Liu, Hidden topological order and its correlation with glass-forming ability in metallic glasses, Nature Communications, (2014), 6:6035
134. H. Y. Wang, C. Lin, B. Liu, Z. M. Sheng, H. Y. Lu, W. J. Ma, J. H. Bin, J. Schreiber, X. T. He, J. E. Chen, M. Zepf and X. Q. Yan, Laser-driven three-stage heavy-ion acceleration from relativistic laser-plasma interaction, Physical Review E, (2014), 89: 013107
135. W. J. Ma, J. H. Bin, H. Y. Wang, M. Yeung, C. Kreuzer, M. Streeter, P. S. Foster, S. Cousens, D. Kiefer, B. Dromey, X. Q. Yan, J. Meyer-ter-Vehn, M. Zepf and J. Schreiber, Bright Subcycle Extreme Ultraviolet Bursts from a Single Dense Relativistic Electron Sheet, Physical Review Letters, (2014), 113: 235002
136. M. L. Zhou, S. Zhao, H. Y. Wang, C. Lin, H. Y. Lu, Y. R. Lu, T. Tajima, X. T. He, C. E. Chen, Y. Q. Gu and X. Q. Yan, Instability-free ion acceleration by two laser pulses, Eur. Phys. J. Special Topics, (2014), 223: 1031–1035
137. Z. P. Jia, X. F. Gong, S. D. Zhang and J. Liu, Two new three-dimensional contact algorithms for staggered Lagrangian Hydrodynamics, Journal of Computational Physics, (2014), 267: 247–285
138. W. W. Jiang, S. Q. Tang, X. M. Wang and D. Qian, Generalized Matching Boundary Conditions Based on Fourier Transform Technique, Journal of Nanomechanics and Micromechanics, (2014), 4-2
139. Y. Yang, Y. F. Li, S. X. Wang and P. Zhang, Adsorption structure of water molecules on the Be(0001) surface, Journal of Applied Physics, (2014), 115: 213511
140. Y. Yang, Y. Lu, P. Zhang, Optical properties of PuO2 and a-Pu2O3 by GGA + U + QA studies, Journal of Nuclear Materials, (2014), 452: 414–418
141. Z. G. Wang, Z. G. Fu, B. He and P. Zhang, Energy relaxation of multi-MeV protons traveling in compressed DT+Be plasmas, Physics of Plasmas, (2014), 21: 072703
142. Y. Lua, Y. Yang, F. W. Zheng, P. Zhang, Electronic and thermodynamic properties of α-Pu2O3, Physics Letters A, (2014), 378: 3060–3065
143. Z. G. Wang, Z. G. Fu and P. Zhang, Theoretical studies on the stopping power of deuterium-tritium mixed with uranium plasmas for a particles, Physics of Plasmas, (2014), 21: 102307
144. Y. H. Xue, Y. Wu, X. W. Pei, H. L. Duan, Q. J. Xue and F. Zhou, How solid−liquid adhesive property regulates liquid slippage on solid surfaces?, Langmuir, (2015), 31: 226−232
145. H. P. Kang, Z. Y. Lin, S. P. Xu, C. L. Wang, W. Quan, X. Y. Lai, X. J. Liu, X. Y. Jia, X. L. Hao, J. Chen, et.al, Wavelength-dependent ionization suppression of diatomic molecules in intense circularly polarized laser fields, Physical Review A, (2014), 90: 063426
146. T. F. Yang, C. A. Taylor, C. X. Wang, Y. W. Zhang, W. J. Weber, J. R. Xiao, J. M. Xue, S. Yan, Y. G. Wang, Effects of He Irradiation on Yttria-Stabilized Zirconia Ceramics, J. Am. Ceram. Soc.,(2014), 1–9
147. J. R. Xiao, T. F. Yang, C. X. Wang, J. M. Xue and Y. G. Wang, Investigations on Radiation Tolerance of Mn+1AXn Phases: Study of Ti3SiC2, Ti3AlC2, Cr2AlC, Cr2GeC, Ti2AlC, and Ti2AlN, J. Am. Ceram. Soc., (2014), 1–9
148. S. Y. Kong, G. Velisa, A. Debelle, T. F. Yang, C. X. Wang, L. Thomé, J. M. Xue, S. Yan and Y. G. Wang, Effects of thermal annealing on the evolution of He bubbles in zirconia, Nuclear Instruments and Methods in Physics Research B, (2014), 326: 214–218
149. Y. Liu, D. Wu, S. B. Yao and J. P. Wang, Analytical and numerical investigations of the wedge induced oblique detonation waves at low inflow Mach number. Combustion Science and Technology, 2015, 187: 843–856
150. R. Zhou, D. Wu, Y. Liu and J. P. Wang, Particle path tracking method in 2D and 3D rotating detonation engines, Chinese Physics B, (2014), 23(12): 124704
151. Y. H. Wang, J. P. Wang, Y. S. Li and Y. Li, Induction for multiple rotating detonation waves in the hydrogeneoxygen mixture with tangential flow, International Journal of Hydrogen Energy, (2014), 39: 11792-11797
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