发表文章 Publications

[1]   Yao Li, Han Miao, Hongru Ma, and Jeff Z Y Chen. Topological defects of tetratic liquid-crystal order on a soft spherical surface. Soft Matter, 9(48):11461–11466, 2013.

[2]   Yangbo Xie, Huanyang Chen, Yadong Xu, Lin Zhu, Hongru Ma, and Jian-Wen Dong. An invisibility cloak using silver nanowires. Plasmonics, 6(3):477–481, 2011.

[3]   Liewen Chen, Bao An Li, Hongru Ma, and Jun Xu. Nuclear constraints on the inner edge of neutron star crusts. Nuclear Physics A, 834(1):664c–666c, 2010.

[4]   Shan He, Sheng Li, and Hongru Ma. Integrating fluctuations into distribution of resources in transportation networks. The European Physical Journal B, 76(1):31–36, 2010.

[5]   Xianzhi Wang and Hongru Ma. Improvement on the carnahan-starling equation of state for hard-sphere fluids. Chinese Journal of Chemical Physics, 23(6):675, 2010.

[6]   Jun Xu, Che Ming Ko, Liewen Chen, Bao An Li, and Hongru Ma. Transition density and pressure at the inner edge of neutron star crusts. International Journal of Modern Physics E, 19(08n09):1705–1711, 2010.

[7]   Tao Yang, Ruifang Cao, Xudong Luo, and Hongru Ma. Acoustic superscatterer and its multilayer realization. Applied Physics A, 99(4):843–847, 2010.

[8]   Yongwei Gu, Xudong Luo, and Hongru Ma. Low frequency elastic wave propagation in two dimensional locally resonant phononic crystal with asymmetric resonator. Journal of Applied Physics, 105(4):044903–044903, 2009.

[9]   Shan He, Sheng Li, and Hongru Ma. Betweenness centrality in finite components of complex networks. Physica A: Statistical Mechanics and its Applications, 388(19):4277–4285, 2009.

[10]   Shan He, Sheng Li, and Hongru Ma. Effect of edge removal on topological and functional robustness of complex networks. Physica A: Statistical Mechanics and its Applications, 388(11):2243–2253, 2009.

[11]   Jun Jing, Zhiguo Lue, and Hongru Ma. Quantum dynamics of double qubit in a spin star lattice with an x–y interaction. Modern Physics Letters B, 23(07):911–923, 2009.

[12]   Xudong Luo, Tao Yang, Yongwei Gu, Huanyang Chen, and Hongru Ma.

Conceal an entrance by means of superscatterer. Applied Physics Letters, 94(22):223513–223513, 2009.

[13]   Fangping Wei, Sheng Li, and Hongru Ma. Computer simulation of trna evolution. Journal of Physics A: Mathematical and Theoretical, 42(34):345101, 2009.

[14]   Jun Xu, Liewen Chen, Bao An LI, and Hongru MA. Effects of isospin and momentum-dependent interactions on thermal properties of nuclear matter. Nuclear Physics Review, 2:003, 2009.

[15]   Jun Xu, Liewen Chen, Bao An Li, and Hongru Ma. Locating the inner edge of the neutron star crust using terrestrial nuclear laboratory data. Physical Review C, 79(3):035802, 2009.

[16]   Jun Xu, Liewen Chen, Bao An Li, and Hongru Ma. Nuclear constraints on properties of neutron star crusts. The Astrophysical Journal, 697(2):1549, 2009.

[17]   Mingcheng Yang and Hongru Ma. Solid-solid transition of the size-polydisperse hard sphere system. The Journal of chemical physics, 130:031103, 2009.

[18]   Yi Zhen and Hongru Ma. The effect of a yukawa-type pair potential on strongly stretched dsdna. Journal of Statistical Mechanics: Theory and Experiment, 2009(03):P03022, 2009.

[19]   Huanyang Chen, Kin Hung Fung, Hongru Ma, and Che Ting Chan. Polarization gaps and negative group velocity in chiral phononic crystals: Layer multiple scattering method. Physical Review B, 77(22):224304, 2008.

[20]   Huanyang Chen, Tao Yang, Xudong Luo, and Hongru Ma. Impedance-matched reduced acoustic cloaking with realizable mass and its layered design. Chinese Physics Letters, 25(10):3696, 2008.

[21]   Huanyang Chen, Xiaohe Zhang, Xudong Luo, Hongru Ma, and Che Ting Chan. Reshaping the perfect electrical conductor cylinder arbitrarily. New Journal of Physics, 10(11):113016, 2008.

[22]   Yongwei Gu, Xudong Luo, and Hongru Ma. Optimization of the local resonant sonic material by tuning the shape of the resonator. Journal of Physics D: Applied Physics, 41(20):205402, 2008.

[23]   Jun Jing, Zhiguo L? Hongru Ma, and Hang Zheng. Position-dependent dynamics of two qubits in a leakage cavity. Journal of Physics B: Atomic, Molecular and Optical Physics, 41(13):135502, 2008.

[24]   Jun Jing and Hongru Ma. Level crossing and quantum phase transition of the xy ring. Modern Physics Letters B, 22(08):535–546, 2008.

[25]   Weihua Li, Tao Yang, and Hongru Ma. Depletion potentials in colloidal mixtures of hard spheres and rods. The Journal of chemical physics, 128:044910, 2008.

[26]   Zengju Lian and Hongru Ma. Electrostatic interaction between two nonuniformly charged colloid particles confined in a long charged cylinder wall. Journal of Physics: Condensed Matter, 20(3):035109, 2008.

[27]   Fangping Wei, Sheng Li, and Hongru Ma. Network of trna gene sequences. Journal of Shanghai Jiaotong University (Science), 13:611–616, 2008.

[28]   Binzhe Wu and Hongru Ma. Probability distribution and time-correlation of shanghai stock exchange composite index. JOURNAL-SHANGHAI JIAOTONG UNIVERSITY-CHINESE EDITION-, 42(1):0147, 2008.

[29]   Jun Xu, Liewen Chen, Bao An Li, and Hongru Ma. Effects of isospin and momentum dependent interactions on thermal properties of asymmetric nuclear matter. Physical Review C, 77(1):014302, 2008.

[30]   Jun Xu, Liewen Chen, Bao An Li, and Hongru Ma. Isospin and momentum dependence of liquid-gas phase transition in hot asymmetric nuclear matter. International Journal of Modern Physics E, 17(09):1917–1926, 2008.

[31]   Mingcheng Yang and Hongru Ma. Effect of polydispersity on the relative stability of hard-sphere crystals. The Journal of chemical physics, 128:134510, 2008.

[32]   Mingcheng Yang and Hongru Ma. Elasticity of a polydisperse hard-sphere crystal. Physical Review E, 78(1):011404, 2008.

[33]   Huanyang Chen, Zixian Liang, Peijun Yao, Xunya Jiang, Hongru Ma, and Che Ting Chan. Extending the bandwidth of electromagnetic cloaks. Physical review B, 76(24):241104, 2007.

[34]   Huanyang Chen, Xudong Luo, and Hongru Ma. Scattering of elastic waves by elastic spheres in a nacl-type phononic crystal. Physical Review B, 75(2):024306, 2007.

[35]   Donghui He, Tao Yang, Weihua Li, Qinglan Zhang, and Hongru Ma. Brownian dynamics simulation of two confined colloidal particles. Chinese Physics, 16(10):3138, 2007.

[36]   Jun Jing and Hongru Ma. Suppression of decoherence by bath ordering. Chinese Physics, 16(6):1489, 2007.

[37]   Bao An Li, Liewen Chen, Hongru Ma, Jun Xu, and Gaochan Yong. Differential isospin-fractionation in dilute asymmetric nuclear matter. Physical Review C, 76(5):051601, 2007.

[38]   Zengju Lian and Hongru Ma. Effective interaction of nonuniformly charged colloid spheres in a bulk electrolyte. The Journal of chemical physics, 127(10):104507–104507, 2007.

[39]   Jun Xu, Liewen Chen, Bao An Li, and Hongru Ma. Effects of isospin and momentum dependent interactions on liquid–gas phase transition in hot asymmetric nuclear matter. Physics Letters B, 650(5):348–353, 2007.

[40]   Jun Xu, Liewen Chen, Bao An Li, and Hongru Ma. Temperature effects on the nuclear symmetry energy and symmetry free energy with an isospin and momentum dependent interaction. Physical Review C, 75(1):014607, 2007.

[41]   Jun Xu and Hongru Ma. Density of states of a two-dimensional xy model from the wang-landau algorithm. Physical Review E, 75(4):041115, 2007.

[42]   Xi Ye, Yang Cheng, Xuedong Huang, and Hongru Ma. Relationship between spreading rate and wetting behaviour of oil on surface of surfactant solution. Chinese Physics Letters, 24(8):2345, 2007.

[43]   Huanyang Chen and Hongru Ma. The density profile of hard sphere liquid system under gravity. The Journal of chemical physics, 125:024510, 2006.

[44]   Yang Cheng, Xi Ye, Xuedong Huang, and Hongru Ma. Reentrant wetting

transition on surfactant solution surfaces. The Journal of chemical physics, 125:164709, 2006.

[45]   Yang Cheng, Xi Ye, and Hongru Ma. Solidlike spreading of a liquid/liquid system. Applied physics letters, 89(18):181906–181906, 2006.

[46]   Zenghua Li, Liewen Chen, Che Ming Ko, Bao An Li, and Hongru Ma. Nuclear symmetry potential in the relativistic impulse approximation. Physical Review C, 74(4):044613, 2006.

[47]   Zenghua Li, Liewen Chen, Hongru Ma, U Lombardo, H-J Schulze, and Wei Zuo. Nuclear matter saturation point and symmetry energy with modern nucleon-nucleon potentials. Physical Review. C, Nuclear Physics, 74(4), 2006.

[48]   Meng Meng, Sheng Li, and Hongru Ma. The transition of epidemic spreading in small world [j]. Journal of Shanghai Jiaotong University, 5:036, 2006.

[49]   Fangping Wei, Meng Meng, Sheng Li, and Hongru Ma. Comparing two evolutionary mechanisms of modern trnas. Molecular phylogenetics and evolution, 38(1):1–11, 2006.

[50]   Haiyan Zhang and Hongru Ma. Dynamics of the colloidal suspensions. Frontiers of Physics in China, 1(2):186–203, 2006.

[51]   Haiyan Zhang and Hongru Ma. Left-handed materials and negative refractive index. College Physics, 12:002, 2006.

[52]   Weihua Li and Hongru Ma. Depletion interactions between two spherocylinders. The European Physical Journal E, 16(2):225–231, 2005.

[53]   Fangping Wei, Sheng Li, and Hongru Ma. Distribution of words on the world-wide web. Chinese Physics Letters, 22(3):762, 2005.

[54]   Cuilian Li and Hongru Ma. The density distributions of the counterions and the coions confined in two similarly charged plates. The Journal of chemical physics, 121:1917, 2004.

[55]   Weihua Li and Hongru Ma. Effective depletion potential of colloidal spheres. Chinese Physics Letters, 21(6):1175, 2004.

[56]   Wei-Hua Li, Wei-Zhao Zhu, and Hongru Ma. Equilibrium properties of hard sphere fluid in confined geometries: a density functional theory study. Chinese physics letters, 20(2):259, 2003.

[57]   Weihua Li and Hongru Ma. Depletion force and torque on an ellipsoid. The Journal of chemical physics, 119:585, 2003.

[58]   Weihua Li and Hongru Ma. Entropic interactions on a colloidal sphere near the edge of a terrace. The European Physical Journal E, 12(2):321–324, 2003.

[59]   Hongru Ma, Weijia Wen, Wing Yim Tam, and Ping Sheng. Dielectric electrorheological fluids: theory and experiment. Advances in Physics, 52(4):343–383, 2003.

[60]   Dengming Zhu, Weihua Li, and Hongru Ma. On pair additivity of the depletion force. Journal of Physics: Condensed Matter, 15(49):8281, 2003.

[61]   Weihua Li and Hongru Ma. Depletion potential near curved surfaces. Physical Review E, 66(6):061407, 2002.

[62]   Hongru Ma, Ping Sheng, and George K L Wong. Third-order nonlinear properties of au clusters containing dielectric thin films. In Optical Properties of Nanostructured Random Media, pages 41–62. Springer, 2002.

[63]   Liewen Chen, Fengshou Zhang, Zhaohui Lu, Wenfei Li, Zhiyuan Zhu, and Hongru Ma. Temperature dependence of the proton fraction in hot neutron stars. Journal of Physics G: Nuclear and Particle Physics, 27(8):1799, 2001.

[64]   Liewen Chen, Fengshou Zhang, Zhaohui Lu, and Hongru Ma. Articles-nuclear structure-isospin dependent pauli blocking and nucleon mean free path in

isospin-asymmetric nuclear matter. Physical Review-Section C-Nuclear Physics, 64(6):64315–64315, 2001.

[65]   Liewen Chen, Fengshou Zhang, Zhaohui Lu, and Hongru Ma. Isospin dependent pauli blocking and nucleon mean free path in isospin-asymmetric nuclear matter. Physical Review C, 64(6):064315, 2001.

[66]   Yujun Chen and Ma Hongru. Density functional theory studies of magnetically confined fermi gas. Chinese Physics Letters, 18(1):33, 2001.

[67]   Tianyu Zhao and Hongru Ma. Column size effects of der fluids. The European Physical Journal E, 5(4):481–483, 2001.

[68]   Hongru Ma, Baoshe Zhang, Wing Yim Tam, and Ping Sheng. Dielectric-constant evaluation from microstructures. Physical Review B, 61(2):962, 2000.

[69]   Ping Sheng, Weijia Wen, Ning Wang, Hongru Ma, Zhifang Lin, Wing Yim Tam, and CT Chan. Field-induced structural transition in mesocrystallites. Physica B: Condensed Matter, 279(1):168–170, 2000.

[70]   Ping Sheng, Weijia Wen, Ning Wang, Hongru Ma, Zhifang Lin, WY Zhang, XY Lei, ZL Wang, DG Zheng, Wing Yim Tam, et al. Multiply coated microspheres. a platform for realizing fields-induced structural transition and photonic bandgap. Pure and applied chemistry, 72(1):309–315, 2000.

[71]   Ping Sheng, Weijia Wen, Ning Wang, Hongru Ma, Zhifang Lin, WY Zhang, XY Lei, ZL Wang, DG Zheng, Wing Yim Tam, et al. Part 4: Applications of nanostructured materials-multiply coated microspheres. a platform for realizing fields-induced structural transition and photonic bandgap. Pure and Applied Chemistry, 72(1-2):309–316, 2000.

[72]   Weijia Wen, Hongru Ma, Wing Yim Tam, and Ping Sheng. Frequency-induced structure variation in electrorheological fluids. Applied Physics Letters, 77(23):3821–3823, 2000.

[73]   Xiangting Li and Hongru Ma. The bergman spectrum of the effective dielectric constant in two-dimensional composite media. Journal of Physics: Condensed Matter, 11(23):L241, 1999.

[74]   Ping Sheng, Wing Yim Tam, Weijia Wen, Hongru Ma, Guang Hua Yi, and MMT Loy. Theory and experiments on electrorheological fluids. International Journal of Modern Physics B, 13(14n16):1750–1757, 1999.

[75]   Weijia Wen, Ning Wang, Hongru Ma, et al. Field induced structural transition in mesocrystsllites. Phys. Rev. Lett, 82(21):4248–4251, 1999.

[76]   Weijia Wen, Ning Wang, Hongru Ma, Zhifang Lin, Wing Yim Tam, CT Chan, and Ping Sheng. Field induced structural transition in mesocrystallites. Physical review letters, 82(21):4248, 1999.

[77]   Hongru Ma, Rongfu Xiao, and Ping Sheng. Third-order optical nonlinearity enhancement through composite microstructures. JOSA B, 15(3):1022–1029, 1998.

[78]   Ping Sheng and Hongru Ma. Upper bounds on electrorheological properties. In Mathematics of Multiscale Materials, pages 223–230. Springer, 1998.

[79]   Weijia Wen, Hongru Ma, Wing Yim Tam, and Ping Sheng. Anisotropic dielectric properties of structured electrorheological fluids. Applied physics letters, 73(21):3070–3072, 1998.

[80]   Ping Sheng, Wing Yim Tam, Weijia Wen, Hongru Ma, and M M T Loy. Microstructured particles for electrorheological applications. ACS Symposium Series, 679:41–53, 1997.

[81]   Wing Yim Tam, Guang Hua Yi, Weijia Wen, Hongru Ma, Michael MT Loy, and Ping Sheng. New electrorheological fluid: theory and experiment. Physical review letters, 78(15):2987, 1997.

[82]   Weijia Wen, Hongru Ma, Wing Yim Tam, and Ping Sheng. Frequency and water content dependencies of electrorheological properties. Physical Review E, 55(2):R1294, 1997.

[83]   Weijia Wen, Ning Wang, Hongru Ma, Wing Yim Tam, Xiao Yan, and Ping Sheng. Unsedimentation ferro-magnetic-electric microsphere: a new material leads to the application of er fluids in industry and engineering. In APS March Meeting Abstracts, volume 1, page 2210, 1997.

[84]马红孺, 温维佳,谭永炎, 沈平. 电介质电流变液体:基态,水的作用和物理上限. 液态物理进展, 武汉大学出版社, p 215, 1997.

[85]   Hongru Ma. Normal modes of flux line lattice of anisotropic superconductor in a tilt magnetic field. COMMUNICATIONS IN THEORETICAL PHYSICS, 25:27, 1996.

[86]   Hongru Ma, Weijia Wen, Wing Yim Tam, and Ping Sheng. Frequency dependent electrorheological properties: origin and bounds. Physical review letters, 77(12):2499, 1996.

[87]   Hongru Ma. Structure of vortex lines of anisotropic superconductors in a tilt magnetic field. COMMUNICATIONS IN THEORETICAL PHYSICS, 24:151, 1995.

[88]   Haiyan Zhang, Hongru Ma, and Bowei Xu. Conformal invariance and the lanczos method studies of ashkin-teller quantum chain. COMMUNICATIONS IN THEORETICAL PHYSICS, 23:211–211, 1995.

[89]   Haiyan Zhang, Hongru Ma, and Bowei Xu. Conformal invariance and the lanczos

method studies of spinning quantum chain. ACTA PHYSICA SINICA(overseas Edition), 4:169, 1995.

[90]   Hongfei Lu and Hongru Ma. Tmagnetic field distribution of a single vortex line of layered superconductor. , 16:269, 1994.

[91]   Hongru Ma. The elastic matrix of flux line superlattices of high?i?t?i俊 sub? c?sub?superconductors. Physics Letters A, 187(1):93–96, 1994.

[92]   ST Chui, Hongru Ma, RV Kasowski, and William Y Hsu. Local-field correction for nonlinear optical coefficients. Physical Review B, 47:6293–6298, 1993.

[93]   Hongru Ma. Thermal fluctuations of flux-line positions of high-tc superconductors. Journal of Physics: Condensed Matter, 5(42):L521, 1993.

[94]   S-T Chui and Hongru Ma. Defects in flux lattices and flux creep in high-tc superconductors. Journal of Physics: Condensed Matter, 4(14):L237, 1992.

[95]   Hongru Ma and S T Chui. Monte carlo simulation of flux lines. Physical Review Letters;(United States), 68(16), 1992.

[96]   Hongru Ma and S T Chui. Statics and dynamics of flux line lattices of high-tc superconductors. Journal of Physics: Condensed Matter, 4(2):445, 1992.

[97]   Hongru Ma and S T Chui. Mechanism of flux-line lattice melting of high-t_ {c} superconductors. Physical review letters, 67(4):505, 1991.

[98]   Hongru Ma, S T Chui, RV Kasowski, and William Y Hsu. Ab-initio calculation of nonlinear optical properties of gaas. Optics communications, 85(5):437–442, 1991.

[99]   Mingguang Qin, Hongru Ma, and Chien-Hua Tsai. A renormalisation analysis of the one-dimensional thue-morse aperiodic chain. Journal of Physics: Condensed Matter, 2(5):1059, 1990.

[100]   Hongru Ma and Chien-Hua Tsai. On the energy spectra of one-dimensional quasi-periodic systems. Journal of Physics C: Solid State Physics, 21(23):4311, 1988.

[101]徐云,马红孺. 准周期超晶格中的Plasmon-polarito模. 低温物理学报, 10:194, 1988.

[102]马红孺, 蔡建华. 超晶格Heisenberg磁性的研究(II)—低温自旋波. 低温物理学报, 10:169, 1988.

[103]   Hongru Ma and Chien-Hua Tsai. Interface polariton modes in semiconductor quasiperiodic superlattices. Physical Review B, 35(17):9295, 1987.

[104]   Hongru Ma, Yun Xu, and Chien-hua Tsai. Electronic structure of one-dimensional quasi-crystals. Journal of Physics C: Solid State Physics, 19(34):L823, 1986.

[105]马红孺, 蔡建华. 超晶格Heisenberg磁性的研究, 低温物理学报, 8:185, 1986.

[106]   Hongru Ma and Chien-hua Tsai. On the variation with modulation wave-length of the curie temperature of a heisenberg magnetic superlattice. Solid state communications, 55(6):499–500, 1985.

[107]   Hongru Ma and Chien-hua Tsai. Spin waves in magnetic superlattices. Chinese Physics Letters, 1(2):92, 1984.

[108]尹真, 马红孺, 薛登平, 蔡建华. f.c.c/f.c.c lucs. 物理学报, 32:147, 1983.

 

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