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2000

Superconductivity

[1]   Che G.C., Li J.Q., Jiang H., Dong C. Liu G.D., Jia S.L., Zhao Z.X.; Metal-insulator transition and possible superconductivity in Pb2.2Cu0.8Sr3.1La1.5Cu1.5Oy with hex-agonal structure; Mat. Res. Innovations; 3 (2000) 212.

[2]   Che G.C., Liu G.D., Wu F., Chen H., Jia S.L., Dong C., Zhao Z.X.; A new supercon-ducting series Cu0.5Ba0.5SrBaR0.6Ca0.4Cu2O7; Physica C; 341-348 (2000) 391.

[3]   Chen H.Y., Wang Q.H., Dai Y, Lin C., Ni Y.M., Zhang Y.Z.; Magnetic interaction between Cu ions in LaxSr14-x Cu24 O41; Physica C; 337 (2000) 317.

[4]   Chen K., Chen L., Yang T., Wang J.P., Wu P.J., Zheng D.N. and Zhao Z.X.; High-Tc SQUID magnetometer with grain boundary junctions and its application in non-destructive evaluation; Physica C; 329 (2000) 102.

[5]   Chen K., Tian Y.J., Chen L., Yang T., Zheng D.N. and Zhao Z.X.; High-Tc SQUID magnetometer and planar gradiometer and their applications in non-destructive evaluation; Physica C; 341-348 (2000) 2709.

[6]   Chen L., Che G.C., Li H., Dong C., Zhou F., Huang Y.Z., Zhao Z.X.; Superconductivity of Nd1.85Ce0.15CuO4-y by electrochemical oxidation; Chin. Phys. Lett.; 17 (2000) 601.

[7]   Chen L., Dong C., Huang Y.Z., Zhou F., Che G.C., Zhao Z.X.; Superconducting phase with Tc of 17K in La2CuO4+d; Solid State Commun.; 114 (2000) 107.

[8]   Chen L., Huang Y.Z., Zhou F., Che G.C., Zhao Z.X.; Electrochemical oxidation of La2CuO4 single crystals; Chin. Phys.; 9 (2000) 624.

[9]   de Marneffe J.F., Zhang Y.Z., and Deltour R.; Investigation of the low field irreversibility line in Bi2Sr2Ca1CuO8+d thin films; Physica C; 341-348 (2000) 1165.

[10]   Dong C., Chen L., Che G.C., Wu F., Chen H., Zhou F., Huang Y.Z. and Zhao Z.X.; High temperature X-ray diffraction investigations of La2CuO4+d; Physica C; 341-348 (2000) 667.

[11]   Dong C., Langford J.I.; LAPODS: a computer program for refinement of lattice parameters using optimal regression; J. Appl. Cryst.; 33 (2000) 1177.

[12]   Dong X.L., Zhao B.R., P.S. Luo, Zhao Z.X., Ni Y.M., Xu B., Wu F., Chen H., Zhao L.H.; Phase separation induced ferromagnetic correlation in Cu-rich La2CuO4.003 sample; Physica C; 341-348 (2000) 2033.

[13]   Guo S.Q., Wen H.H., Zhen D.N., Zhao B.R., Wu F. and Ni Y.M.; The physical origin of huge errors in superconductive magnetic hysteresis loops; Physica C ; 341-348 (2000) 1361.

[14]   Guo S.Q.,Wen H.H.,Zhen D.N.,Zhao B.R.,Wu F.,Ni Y.M.; The physical origin of huge errors in superconductive magnetic hysteresis loops; Physica C; 341-348 (2000) 1361.

[15]   Hao Z., Liu B.T., Lin Y., Xu B., Wu F., Tao H.J., Zhu B.Y., Zhao Z.X., Zhao B.R.; Large-area ferroelectricity of epitaxial Pb(Zr0.53Ti0.47)O-3/YBa2Cu3O7-d heterostructures; Supercond. Sci. Technol.; 13 (2000) 612.

[16]   Hao Z., Zhao B.R., Zhu B.Y., Ni Y.M., Zhao Z.X.; Magnetic field induced superconductor-insulator transition and abnormal Hall effect in Y0.5Pr0.5Ba2Cu3O7-d thin films; Physica C; 341-348 (2000) 1891.

[17]   Li J.Q., Chen L, Zhao Z.X., and Matsui Y.; Short-range-oxygen order and superconducting phase separation in La2CuO4+X; Physica C; 341-348 (2000) 1747.

[18]   Li K.Q., Yao Y.S., Cao D.H., Che G.C., Jia S.L., Ni Y.M., Dong C. and Zhao Z.X.; High pressure synthesis of Ca-doped Pr-123 superconductors; Physica C; 341-348 (2000) 583.

[19]   Li L.; Ferrolectric/superconductors heterostructures; Mater. Sci. Eng. R; 248 (2000) 1.

[20]   Li P., Yang W.L., Tan P.H., Wen H.H., Zhao Z.X.; Ramen-forbidden mode and oxygen ordering in Bi2Sr2-xLaxCuO6+y single crystals annealed in oxygen; Phys. Rev. B; 61 (2000) 11324.

[21]   Li S.X., Tao H.J., Xuan Y., Zhao B.R., Zhao Z.X.; High-T-c superconductor Bi2Sr2CaCu2O8+d tunnel junction with Zn counterelectrode; Appl. Phys. Lett.; 76 (2000) 3466.

[22]   Li S.X., Tao H.J., Xuan Y., Zhao B.R., Zhao Z.X.; Power law behavior of the zero bias tunneling conductance: The new evidence for d-wave symmetry; Chin. Phys. Lett.; 17 (2000) 760.

[23]   Li S.X., Tao H.J., Xuan Y., Zhao B.R., Zhao Z.X.; Tunneling spectroscopy of Bi2Sr2CaCu2O8 + /Zn junctions; Physica C; 341-348 (2000) 549.

[24]   Li S.X., Xuan Y., Tao H.J., Yang W.L., Wen H.H., Zhao B.R., Zhao Z.X.; Andreev reflection in point-contact tunneling spectroscopy on Bi2Sr1.94La0.06CuO6+d single crystals; Physica C; 338 (2000) 213.

[25]   Peng H.B., Zhang X.X., Xie Z., Tao H.J., Xu B., Liu H., Zhao B.R.; Exchange biasing and low-field magnetoresistance in La0.67Ca0.33MnO3/La0.5Ca0.5MnO3 bilayers; Phys. Rev. B; 61 (2000) 8955.

[26]   Rosseel K., Vanacken J., Trappeniers L., Wen H.H., Boon W., Herlach F., Moshchalkov V.V., Bruynseraede Y.; Vortex dynamics studies in pulsed magnetic fields; Physica C; 337 (2000) 265.

[27]   Sha J.J., Yao Z.W., Yu J.N., Yu G., Luo J.H., Wen H.H., Yang W.L., Li S.L.; Study on the technology and property for Y2BaCuO5 particles artificial doping to obtain single-crystal domain melt-textured YBCO bulk superconductor; Acta Physica Sinica; 49 (2000) 1356.

[28]   Shaw M., Wen H.H., Zhao Z.X.; In-plane charge transportation in pseudogap regime of high-Tc superconductors; Physica C; 341-348 (2000) 919.

[29]   Shaw M., Zhang G.M. and Zhao Z.X.; Behavior of magnetic impurities in d-wave superconductors; Physica C; 341-348 (2000) 921.

[30]   Shaw M., Wen H.H. and Zhao Z.X.; In-plane charge transportation in pseudo-gap regime of high-TC superconductors; Physica C; 341-348 (2000) 919.

[31]   Sun Y.P., Song W.H., Zhao B., Du J.J., Wen H.H., Zhao Z.X., Ku H.C.; Improved flux pinning and anomalous magnetization peak in heavily overdoped Bi2-xPbxSr2CaCu2-yCryO8+d single crystals; Appl. Phys. Lett.; 76 (2000) 3795.

[32]   Tao H.J., Li S.X., Xuan Y., Yang W.L., Wen H.H., Zhao B.R., Zhao Z.X.; Point-contact tunneling on Bi2Sr1.94La0.06CuO6+d single crystals; Physica C; 341-348 (2000) 1679.

[33]   Tian Y.J., T.S. Wang, Chen K., Qi H.H., Chen L., Zheng D.N., S. Linzen, Schmidl F. and Seidel P.; Flip-chip-type high-Tc gradiometer for biomagnetic measurements in unshielded environment; Sci. China Ser. A; 43 (2000) 82.

[34]   Wen H.H.; Macroscopic phase separation in high-temperature superconductors; Proceeding of the National Academy of Sciences of the United States of America; 97 (2000) 11145.

[35]   Wen H.H., Chen X. H., Yang W.L., Zhao Z.X.; Same superconducting criticality for underdoped and overdoped La2-xSrxCuO4 single crystals; Phys. Rev. Lett.; 85 (2000) 2805.

[36]   Wen H.H., Chen X.H., Yang W.L., Ni Y.M., and Zhao Z.X.; Large distinction between underdoped and overdoped La2-xSrxCuO4 single crystals as observde from magnetic and transport measurement: A possible, A evidence for macroscopic phase separation in overdoped high temperature superconductors; Physica C; 341-348 (2000) 2005.

[37]   Wen H.H., Li S.L., Zhao Z.X.; Anomalous magnetization transition accompanying the irreversibility line in high-temperature superconductors; Phys. Rev. B; 62 (2000) 716.

[38]   Wen H.H., Yang W.L., and Zhao Z.X.; Macroscopic phase separation in overdoped high temperature superconductors; Physica C; 341-348 (2000) 1735.

[39]   Yang W.L., Wen H.H., Li P., Xiong J. W., Chen H., Wu F., Dong C., Ni Y.M., and Zhao Z.X.; Macroscopic phase separation in extremely hole-underdoped Bi2Sr2-xLaxCuO6+y single crystals; Physica C; 341-348 (2000) 647.

[40]   Yang W.L., Wen H.H., Zhao Z.X.; Discrete superconducting transition temperatures and pronounced T-c depression related to the 1/8 problem in Bi2Sr2-xLaxCuO6+d single crystals; Phys. Rev. B; 62 (2000) 1361.

[41]   Yang W.L., Wen H.H., Zhao Z.X.; Giant dissipation peak and current effect of in-plane resistance in Bi2Sr2-xLaxCuO6+y single crystals under magnetic fields; Phys. Rev. B; 62 (2000) 1387.

[42]   Zhang Y.Z., Deltour R., and Zhao X.Z.; Experimental evidence for vortex decoupling in a superconducting Bi2Sr2-xLaxCuO6+d thin film; Physica C; 341-348 (2000) 1115.

[43]   Zhang Y.Z., Deltour R., de Marneffe J.F., Wen H.H., Qin Y.L., Li L., Zhao Z.X., Jansen L., and Wyder P.; Resistive upper critical magnetic field of a superconducting Bi2Sr2-xLaxCuO6+d thin film grown on a vicinal substrate; Physica C; 341-348 (2000) 1917.

[44]   Zhang Y.Z., Deltour R., J.F. de Marneffe, Qin Y.L., Li L., Zhao Z.X., Jansen A.G.M., and Wyder P.; Magnetoresistance properties of Bi2Sr2-xLaxCuO6+d films grown on vicinal substrates; Phys. Rev. B; 61 (2000) 8675.

[45]   Zhang Y.Z., Deltour R., Lin J. J., Wen H.H., Qin Y. L., Dong C., Li L., Zhao Z.X.; Vortex characteristics in a superconducting Bi2Sr2-xLaxCuO6+dthin film; Phys. Rev. B; 62 (2000) 11373.

[46]   Zhang Y.Z., Deltour R., Zhao X.Z.; Coulomb-gas scaling law for superconducting Bi2Sr2-xLaxCuO6+d thin films in magnetic fields; Phys. Rev. Lett.; 85 (2000) 3492.

[47]   Zhang Y.Z., Qin Y. L., Deltour R., Tao H.J., Li L., and Zhao Z.X.; Anisotropic properties of Bi2Sr2-xLaxCuO6+d films grown on vicinal SrTiO3 substrate; J. Superconductivity; 13 (2000) 153.

[48]   Zhao Z.X., Li K.Q., Che G.C., Honma T. and Hor P.H.; Superconductivity in Ca-doped Pr-123 system; Physica C; 341-348 (2000) 331

[49]   Zheng D.N., Ingle N.J.C. and Campbell A.M.; Irreversibility fields of superconduct-ing niobium alloys; Phys. Rev. B; 61 (2000) 15429.

[50]   Zheng D.N., Li J.Q., Lin C.T., Yan S.L., Fang L., Ni Y.M. and Zhao Z.X.; Upper critical field and irreversibility field of over-doped Tl2Ba2CuO6+d superconductors; Physica C; 341-348 (2000) 1373.

[51]   Zheng D.N., Zhao Z.X. and Campbell A.M.; Determination of Irreversibility Fields and Superconducting Parameters in BaPb0.75Bi0.25O3 ; Phys. Rev. B; 61 (2000) 14804.

[52]   Zhu B.Y., Zhao B.R., Zhao Z.X., Van Look L., Moshchalkov V.V.; Asymmetric pinning in superconductors with interpenetrating arrays of weak and strong pinning centers; Physica C; 341-348 (2000) 1143.

Magnetism

[1]   Chen X., Wang Y. J., Liang B.Q., Tang Y.J., Zhao H.W., and Xiao J.Q.; Perpendicular anisotropy in the amorphous TbCo/Si multilayers; J. Appl. Phys.; 88 (2000) 6845.

[2]   Chen X., Wang Z.H., Li R.W., Shen B.G., Zhan W.S., Sun J.R., Chen J.S., Yan C.H.; The magnetic and transport properties of Fe doped La0.5Ca0.5MnO3; J. Appl. Phys.; 87 (2000) 5594.

[3]   Chun X.M., Jie Q.H., Qin L.F., Ibrahim K., Yan L.W., Cheng W.S.; Pb surfactant-assisted Co growth on Cu (111); Chin. Phys. Lett.; 17 (2000) 595.

[4]   Chun X.M., Jie Q.H., Qin L.F., Ibrahim K., Yan L.W., Cheng W.S.; Surface Alloying of Submonolayer Pb Cu (111) Studied by Photomission; Chin. Phys. Lett.; 17 (2000) 49.

[5]   Dai W., Shen B.G., Hu F.X., Gao Z.G.; Physical topics in studies of magnetic refrigerants; Bulletin of National Natural Science Foundation of China; 14 (2000) 216.

[6]   Dai W., Shen B.G., Li D.X., Gao Z.X.; Application of high-energy Nd-Fe-B magnets in the magnetic refrigeration; J. Magn. Magn. Mater.; 218 (2000) 25.

[7]   Dai W., Shen B.G., Li D.X., Gao Z.X.; New magnetic refrigeration materials for temperature range from 165K to 235K; J. Alloys Compounds; 311 (2000) 22.

[8]   Gu B.X., Shen B.G., Zhai H.R.; Critical phenomena of amorphous Nd4 (Fe0.75 Cr0.25)77.5 B18.5 alloys; J. Magn. Magn. Mater.; 210 (2000) 163.

[9]   Gu B.X., Shen B.G., Zhai H.R.; Magnetic properties of amorphous Nd4(Fe1-xSix)77.5B18.5 alloys; J. Magn. Magn. Mater.; 218 (2000) 49.

[10]   Gu Q., Shen J.L.; Order-disorder transitions in bilayer Heisenberg models on the triangular lattice; Phys. Rev. B; 62 (2000) 3287.

[11]   Gu Q., Shen J.L.; Studies of the exactly dimerized bilayer Heisenberg model via strong coupling expansions; Eur. Phys. J. B.; 18 (2000) 63.

[12]   Guo H.Q., Kronmüller H., Dragon T., Cheng Z.H., Shen B.G.; Formation and evolution of the transverse anisotropy with nanocrystallization in amorphous Fe73.5Cu1Nb3Si13.5B9; Phys. Rev. B; 62 (2000) 5760.

[13]   He L.H., Tang Y.J., Chen X., Liang B.Q., Li J., Wang Y.J., Chen L.Y.  ; Interface structure effects on the Kerr rotation in Co/Pt multilayers; Phys. Status solidi. A; 181 (2000) 421.

[14]   Hu B., Zhang D.G., Li B.Z.; Quantum tunneling and quantum-classical transitions in large spin systems; Phys. Rev. B; 61 (2000) 8639.

[15]   Hu F.X., Shen B.G., and Sun J.R.; Magnetic entropy change in Ni51.5Mn22.7Ga25.8 alloy; Appl. Phys. Lett.; 76 (2000) 3460.

[16]   Hu F.X., Shen B.G., Sun J.R., and Zhang X.X.; Great magnetic entropy change in La(Fe,M)13 (M = Si, Al) with Co doping; Chin. Phys.; 9 (2000) 550.

[17]   Hu F.X., Shen B.G., Sun J.R., Cheng Z.H., and Zhang X.X.; Magnetic entropy change in La(Fe0.98Co0.02)11.7Al1.3; J. Phys.: Condens. Mat.; 12 (2000) L691.

[18]   Ji T.H., Zhao J.G. et al.; Synthesis of Co-B/resin nanoparticles and heat-treatment effect on their magnetic properties; J. Magn. Magn. Mate.; 212 (2000) 189.

[19]   Jian M.R., Chin T.S., Tsai J.L., Zhang H.W., Shen B.G.; Structure and magnetic properties of textured Nd(Fe,Ti)12Nx films; J. Magn. Magn. Mater.; 209 (2000) 205.

[20]   Jin Y.H., Kou S.P., Liang J.Q., Li B.Z.; Deviation of coherent state caused by dissipation; Mod. Phys. Lett. B; 14 (2000) 267.

[21]   Jin Y.H., Nie Y.H., Li Z.J., Liang J.Q., and Pu F.C.; Quantum phase interference in magnetic molecular clusters; Mod. Phys. Lett. B; 14 (2000) 809.

[22]   Jin Y.H., Nie Y.H., Liang J.Q., Chen Z.D., Xie W.F. and Pu F.C.; Tunneling splitting in biaxial spin particles as a function of applied magnetic field; Phys. Rev. B; 62 (2000) 3316.

[23]   Li B.H., Yu W.X., Wan X., Zhang J., Shen B.G.; Colossal magnetoresistance effects and magnetic properties of La0.7Sr0.3MxMn1-xO3 (M = Cr, Fe); Acta Physica Sinica; 49 (2000) 1366.

[24]   Li G.H., Yang T., Hu Q., and Lai W.Y.; Exchange coupling in NiFe/NiMn study by pseudo-Hall effect; Appl. Phys. Lett.; 77 (2000) 1032.

[25]   Li R.W., Sun J.R., Wang Z.H., and Shen B.G.; Lattice effects arising from doping at Mn-site in La0.5Ca0.5MnO3; J. Appl. Phys.; 88 (2000) 5924.

[26]   Li R.W., Sun J.R., Wang Z.H., Chen X., Zhang S.Y., and Shen B.G.; Enhancement of ferromagnetic cluster induced by magnetic field in the phase-separated La0.5Ca0.5MnO3; Chin. Phys.; 9 (2000) 630.

[27]   Li R.W., Sun J.R., Wang Z.H., Zhang S.Y. and Shen B.G.; Magnetic and transport properties of Sn-doped La0.5Ca0.5MnO3; J. Phys. D; 33 (2000) 1982.

[28]   Li R.W., Sun J.R., Wang Z.H., Zhang S.Y., Tang N., Shen B.G.; Effects of the relative proportion of ferromagnetic and change-ordered phases on the metal-insulator transition temperature in La0.5Ca0.5Mn1-xGexO3; J. Appl. Phys.; 88 (2000) 7041.

[29]   Li R.W., Wang Z.H., Chen X., Sun J.R., and Shen B.G.; Magnetic properties and magnetoresistance of the perovskites La2/3Ca1/3Mn1-xTixO3; J. Appl. Phys.; 87 (2000) 5597.

[30]   Li R.W., Wang Z.H., Sun J.R., Shen B.G. and Chen X.; Enhancement of Curie temperature and magnetoresistance in the perovskites La2/3Ca1/3Mn1-xSixO3; Chin. Phys. Lett.; 17 (2000) 832.

[31]   Li W.D., Lai Y.Z., Liang J.Q.; Effect of Kerr-like medium on atomic level-occupation probability; Opt. Commun.; 186 (2000) 303.

[32]   Li X., Tang Y.J., Zhao H.W., Zhan W.S., Wang H., and Hou J.G.; Characteristic of interface effect in Cu-C60 granular films; Appl. Phys. Lett.; 77 (2000) 984.

[33]   Li X., Tang Y.J., Zhao H.W., Zhan W.S., Wang H., and Hou J.G.; In situ condiuctivity study of the phase transition in Sb-doped C60; J. Appl. Phys.; 88 (2000) 6931.

[34]   Li X., Wang H.Q., Hou J.G.; In situ direct-current conductance investigation of Cu/C60 nano-scale granular films; Chin. Phys. Lett.; 17 (2000) 360.

[35]   Li Y.F., Chen D.X., Guo H.Q., Vazquez M., Hernando A.; Analysis of eddy-current-loss in Fe-Based amorphous wires; Acta Physica Sinica; 49 (2000) 1591.

[36]   Li Y.X., Xu G.Z., Qu J.P., Tang C.C., Wu G. H. And Zhan W.S.; Synthesis and magnetostriction of (CexTb1-x)0.5Pr0.5Fe2 compounds; J. Mater. Sci.; 16 (2000) 179.

[37]   Li Y.Z., Lin L., Wang W.C., Xiong C.S., Shen B.G.; Magnetic properties of ball milled FexCu1-x (x = 0.4, 0.5) alloy; Chin. Phys.; 9 (2000) 304.

[38]   Liang B., Kleinschroth I., Shen B.G., Kronmüller H.; Magnetic properties of Sm2Co17-xGax (x = 0-7) compounds; J. Appl. Phys.; 87 (2000) 5314.

[39]   Liang B.Q., Chen X., Wang Y.J., and Tang Y.J.; Abnormal magnetoresistance effect in self-doped silver telluride thin films; Phys. Rev. B; 61 (2000) 3239.

[40]   Lin H.Q., Shen J.L.; Exact ground states and excited states of net spin models; J. Phys. Soc. Jpn; 69 (2000) 878.

[41]   Lu Z.Q., Lai W.Y., Cai C.L.; The effect of microstructure and interface conditions on the exchange coupling fields of NiFe/FeMn; Thin Solid Films; 375 (2000) 224.

[42]   Lu Z.Q., Lai W.Y., Zheng Y.K.; Doubly exchange-biased FeMn/NiFe/Cu/CrMnPt spin valves; IEEE Trans. Magn.; 36 (2000) 2899.

[43]   Lu Z.Q., Lee Z.Y., Zheng Y.K., Hu Z.Q., Lin G.Q.; Preparation and properties of amorphous SmDyFeCo films; Mater. Sci. Eng. B; 76 (2000) 50.

[44]   Lu Z.Q., Wang W.D., Chai C.L., Lai W.Y., Zheng Y.K.; Studies on Interfacial and Crystalline Structures of Spin Valve Multilayers; IEEE Trans. Magn.; 36 (2000) 2869.

[45]   Lu Z.Z., Chai C.L., Lai W.Y.; Giant magnetoresistance effect in spin valve multilayers by two-step sputter deposotion; Acta Physica Sinica; 49 (2000) 328.

[46]   Nie Y.H., Jin Y.H., Liang J.Q., Muller-Kirsten H. J. W., Park D. K. And Pu F.C.; Macroscopic quantum phase interference in anti-ferromagnetic particles; J. Phys.: Condens. Mat.; 12 (2000) L87.

[47]   Shen W.D., Jiang B., Han B.S., and Xie S.S.; Investigation of the radial compression of carbon nanotubes with a scanning probe microscope; Phys. Rev. Lett.; 84 (2000) 3634.

[48]   Shen Y.P., Wang J.L., Tang N., Bao F.Q., Yang D., Yang F.M. and Zhong X.P.; Magnetic properties of R(Fe1-xCox)11.3Nb0.7 (R=Y, Ho) compounds; J. Appl. Phys.; 87 (2000) 5293.

[49]   Shen Y.P., Yin X.Y., Tang N., Wang J.L., Yang D., Wang W.H., Wu G.H., Yang F.M., Zhong X.P.; Structure and magnetic properties of ErFe11-xGaxTi; J. Phys.: Condens. Mat.; 12 (2000) 10571.

[50]   Sun J.R., Hu F.X., Shen B.G.; Comment on “Direct measurement of the giant adiabatic temperature change in Gd5Si2Ge2; Phys. Rev. Lett.; 85 (2000) 4191.

[51]   Sun J.R., Yeung C.F., Zhao K., Zhou L.Z., Leung C.H., Wong H.K., and Shen B.G.; Strain-dependent vacuum annealing effects in La0.67 Ca0.33MnO3-d films; Appl. Phys. Lett.; 76 (2000) 1164.

[52]   Sun Z.G., Zhang H.W., Liang B., Wang J.Y., Shen B.G.; Structure and magnetic properties of Y2Co17-xMnx (x = 0-8) compounds; J. Appl. Phys.; 87 (2000) 5311.

[53]   Sun Z.G., Zhang H.W., Zhang S.Y., Han B.S. and Shen B.G.; Magnetic force microscope study on the effect of Cu in melt-spun Sm-Fe-Si-C ribbons; J. Appl. Phys.; 87 (2000) 2061.

[54]   Sun Z.G., Zhang H.W., Zhang S.Y., Wang J.Y., Shen B.G.; Magnetic properties of HoCoMn compounds with the 2:17-type structure; J. Magn. Magn. Mater.; 221 (2000) 351.

[55]   Sun Z.G., Zhang H.W., Zhang S.Y., Wang J.Y., Shen B.G.; Structure and magnetic properties of Sm2Fe17-xMnx compounds; J. Phys. D; 33 (2000) 485.

[56]   Sun Z.G., Zhang H.W., Zhang S.Y., Wang J.Y., Shen B.G.; Structure and magnetic properties of Tb2Co17-xMnx compounds; J. Appl. Phys; 87 (2000) 8666.

[57]   Sun Z.G., Zhang S.Y., Zhang H.W., Wang J.Y., Shen B.G.; The effect of manganese substitution on the magnetic properties of Ce2Co17 compounds; J. Phys.: Condens. Mat.; 12 (2000) 2495.

[58]   Tang N., Chen Z.M., Zhang Y., Hadjipanayis G.C. and Yang F.M.; Nanograined Yco5-based powders with high coercivity; J. Magn. Magn. Mater.; 219 (2000) 173

[59]   Tang N., Yin X.Y., Yang D., Wang J.L., Wu G.H., Yang F.M., Shen Y.P. and Zhong X.P.; Phase formation and magnetic properties of Nd3(Fe,Co,Ti)29 compounds; J. Appl. Phys.; 87 (2000) 5272.

[60]   Tang Y.J., Roos B.F. P., Mewes T., Bauer M., Demokritov S.O., Hillebrands B., Zhan W.S.; Exchange bias effect and anisotropy analysis of FM/AF bilayers; Mater. Sci. Eng. B; 76 (2000) 59.

[61]   Tang Y.J., Roos B.F.P., Hillebrands B., Zhao H.W., Zhan W.S.; Anisotropy and coercivity analysis of Fe/MnPd bilayers; Acta Physica Sinica; 49 (2000) 997.

[62]   Tang Y.J., Roos B.F.P., Mewes T., Frank A.R., Rickart M., Bauer M., Demokritov S.O., Hillebrands B., Zhou X., Liang B.Q., Chen X., and Zhan W.S.; Structure and magnetic properties of exchange-biased polycrystalline Fe/MnPd bilayers; Phys. Rev. B; 62 (2000) 8654.

[63]   Tang Y.J., Zhou X., Liang B.Q., Chen X., and Zhan W.S.; Exchange anisotropy of epitaxial Fe/MnPd bilayers; J. Appl. Phys.; 88 (2000) 2054.

[64]   Tong N.H., Pu F.C.; Fine structure of phase separation in double-exchange systems; Phys. Rev. B; 62 (2000) 9425.

[65]   Wang B.W., Busbridge S.C., Li Y.X., Wu G.H. and Piercy A.R.; Magnetostriction and magnetization process of Tb0.27Dy0.73Fe2 single crystal; J. Magn. Magn. Mater.; 218 (2000) 198.

[66]   Wang F.W., Zhang J., Yuan P., Yan Q.W. and Zhang P.L.; Magnetic and transport properties of vanadate PrVO3; J. Phys.: Condens. Mat.; 12 (2000) 3037.

[67]   Wang F.W., Zhang P.L., Yan Q.W., Gong H.Y.; Magnetic structure of Pr6Fe13Ge studed by Mossbauer effect and neutron diffraction; Sci. China Ser. A; 43 (2000) 1208.

[68]   Wang H., Zhou Y.S., Chen X., Liang B.Q., Tang Y.J., Zhao H.W., Zhan W.S., Wang A.L., Zheng W., Chen J.C.; Optic and magneto-optic properties of Pt/Co/Pt/Ni multilayers; Phys. Status solidi. A; 179 (2000) 429.

[69]   Wang H.T., Chui S.T.; Dynamics of magnetic domain walls in an oscillating field; J. Appl. Phys.; 87 (2000) 6499.

[70]   Wang H.T., Lin H.Q., Shen J.L.; Bond-operator analysis of the magnetization of spin chains; Phys. Rev. B; 61 (2000) 4019.

[71]   Wang J., Wang W.N., Chen X., Zhao H.W., Zhao J.G., and Zhan W.S.; Asymmetry of coercivity dependence on temperature in exchange-biased FeMn/Co bilayers; Appl. Phys. Lett.; 77 (2000) 2731.

[72]   Wang J.L., Tang N., Yang D., Yang C.P., Bao F.Q., Shen Y.P., Wu G.H., Yang F.M., Bruck E., De Boer F.R.; Magnetocrystalline anisotropy and exchange interaction in Yco12-xTix compounds; Chin. Phys. Lett.; 17 (2000) 765.

[73]   Wang J.L., Wu G.H., Tang N., Yang D., and Yang F.M., De Boer F.R., Janssen Y., Klaasse J.C.P., Beuck E. and Buschow K.H.J.; Magnetocrystalline anisotropy of TbFe12-xTix single crystals; Appl. Phys. Lett.; 76 (2000) 1170.

[74]   Wang J.Y., Shen B.G., Zhang S.Y., Zhan W.S., Zhang L.G.; Structure, exchange interactions and magnetic anisotropy of Ho2Co17-xSix compounds; J. Appl. Phys.; 87 (2000) 427.

[75]   Wang J.Y., Wang F.W., Liang B., Zhang S.Y., Yan Q.W., Shen B.G., Zhan W.S., Liu J.P.; Magnetic properties of (Pr1-xCex)6Fe13Al compounds; J. Appl. Phys.; 87 (2000) 4903.

[76]   Wang J.Z., Li B.Z., Hu Z.N.; Temperature dependence of the resonant exchange coupling between two ferromagnets separated by a non metalic spacer; Phys. Rev. B; 62 (2000) 6570.

[77]   Wang W.H., Wu G.H., Chen J.L., Yu C.H., Gao S.X. and Zhan W.S.; Stress-free two-way thermoelastic shape memory and field-enhanced strain in Ni52Mn24Ga24 single crystals; Appl. Phys. Lett.; 77 (2000) 3245.

[78]   Wang W.H., Wu G.H., Chen J.L., Yu C.H., Wang Z., Zheng Y.F., Zhao L.C., and Zhan W.S.; Effect of internal stress and bias field on the transfromation strain of the Heusler alloy Ni52Mn24.4Ga23.6; J. Phys.: Condens. Mat.; 12 (2000) 6278.

[79]   Wang Y.Z., Zhang M.C., Qiao Y., Wang J., Wang Y.J., Shen B.G., Hu B.P.; Structures and magnetic properties of isotropic nanostructured Fe-Pt thin films; Acta Physica Sinica; 49 (2000) 1600.

[80]   Wang Z.C., Li B.Z.; Geometric phase and Bose-Einstein condensate; Commun. Theor. Phys.; 33 (2000) 477.

[81]   Wang Z.H., Cai J.W., Shen B.G., Chen X. and Zhan W.S.; Exchange interaction, spin cluster and transport behavior in perovskite La0.67Sr0.33(Mn1-xNix)O3 (x £ 0.2); J. Phys. Condens. Mat.; 12 (2000) 601.

[82]   Wang Z.H., Ji T.H., Wang Y.Q., Chen X.. Li R.W., Cai J.W., Sun J.R., Shen B.G. and Yan C.H.; Magnetoresistance of La0.5Sr0.5MnO3 nanoparticle compact; J. Appl. Phys.; 87 (2000) 5582.

[83]   Yan A.R, Zhang W.Y., Zhang H.W. and Shen B.G.; Melt-spun magnetically anisotropy SmCo5 ribbons with high permanent performance; J. Magn. Magn. Mater.; 210 (2000) L10.

[84]   Yan A.R., Sun Z.G., Zhang W.Y., Zhang H.W., and Shen B.G.; Characterization of crystalline texture and magnetic properties of anisotropic melt-spun Sm(CoZr)7Cy alloy; Appl. Phys. A; 71 (2000) 311.

[85]   Yan A.R., Zhang W.Y., Zhang H.W. and Shen B.G.; Magnetic properties of Sm- and Cu-doped oriented SmCo5 ribbons prepared by melt spinning; J. Appl. Phys.; 88 (2000) 2787.

[86]   Yan A.R., Zhang W.Y., Zhang H.W., and Shen B.G.; Characterization of crystalline texture and magnetic properties of melt-spun Sm(Co0.8Fe0.1Cu0.08Zr0.02)7.4 alloy; Mater. Sci. Eng. B; 76 (2000) 169.

[87]   Yang T., Chai C.L., Lai W.Y.. ; A study of exchange coupling inNiFe/NiMNn bilayers; Mater. Sci. Eng. B; 76 (2000) 31.

[88]   Yu C.H., Wang W.H., Chen J.L., Wu G.G., Yang F.M., Tang N., Qi S. R. and Zhan W.S.; Magnetic-field-induced strains and magnetic properties of Heusler alloy Ni52Mn23Ga25; J. Appl. Phys.; 87 (2000) 6292.

[89]   Zhang A.Z., Duan S.Q., Zhao X.G., Liang J.Q.; Dynamic localization with an impurity under the action of AC electric field; Physica B; 291 (2000) 275.

[90]   Zhang A.Z., Duan S.Q., Zhao X.G., Liang J.Q.; Effect of external noise on the propagation of a charged particle in a one-dimensional system with an impurity; Phys. Lett. A; 275 (2000) 306.

[91]   Zhang H.W., Li B.H., Wang J., Zhang J., Zhang S.Y. and Shen B.G.; Demagnetization behavior in exchange-coupled Pr10Fe85B5 ribbons; J. Phys. D; 33 (2000) 3022.

[92]   Zhang H.W., Zhang S.Y., and Shen B.G.; Magnetic viscosity and coercivity analysis in nanocrystalline Sm2Fe15Si2C ribbons; Phys. Rev. B; 62 (2000) 8642.

[93]   Zhang H.W., Zhang W.Y., Yan A.R., Shen B.G., I-Chung Tung and Chin T.S.; The hard magnetic properties of nanocomposite Nd3.6Pr5.4Fe83Co3B5 ribbons; Mater. Sci. Eng. A; 14181 (2000) 1.

[94]   Zhang J., Shen B.G., Zhang S.Y., Zhang H.W.; Effects of Co substitution on the crystallization behaviour and magnetic properties of as-milled Nd2Fe14B/a-Fe; J. Phys. D; 33 (2000) 3161.

[95]   Zhang J., Wang F.W., Zhang P.L., Yan Q.W.; Effect of lanthanide substitution on structure and magnetic properties in layered perrovskite La1.2Sr1.8Mn2O7; Mater. Sci. Eng. B; 76 (2000) 6.

[96]   Zhang J., Yan Q.W., Wang F.W., Yuan P. and Zhang P.L.; Magnetic and transition properties of layered La1.2Sr1.8Mn2-xTxO7(T=Fe, Co, Cr); J. Phys.: Condens. Mat.; 12 (2000) 1981.

[97]   Zhang S.Y., Li R.W., Zhao P., Shen B.G. and Zhang L.G.; Magnetocrystalline anisotropy of Y2(Fe1-xCox)15Ga2 compounds; J. Phys. D; 33 (2000) 1446.

[98]   Zhang S.Y., Zhang H.W., Shen B.G., Zhao T., De Boer F.R., Buschow K.H.J.; Investigation of magnetization reversal in Sm-Fe-Cu(Zr)-Ga-C nanocomposite magnets; J. Appl. Phys.; 87 (2000) 1410.

[99]   Zhang S.Y., Zhang H.W., Zhao P. and Shen B.G.; Magnetic viscosity of nanocomposite Sm-Fe-Cu-Zr-Ga-C ribbons; Chin. Phys.; 9 (2000) 541.

[100] Zhang X.X., Wen G.H., Wang F.W., Wang W.H., Yu C.H. and Wu G.H.; Magnetic entropy change in Fe-based compound LaFe10.6Si2.4; Appl. Phys. Lett.; 77 (2000) 3072.

[101] Zhao H., Shen J.L., Zhao Z.X.; Proximity effect in layered high Tc superconductors; Physica C; 333 (2000) 242.

[102] Zhao J.G., Qian X., Liu W., Liu C.L., Zhan W.S.; Magnetic anisotropy in the radula of chiton; Chin. Phys. Lett.; 17 (2000) 542.

[103] Zhou B., Liang J.Q., Pu F.C.; Bounces and the calculation of quantum tunneling effects for the asymmetric double-well potential; Phys. Lett. A; 271 (2000) 26.

[104] Zhou B., Liang J.Q., Pu F.C.; Calculation of tunneling splitting in a biaxial spin particle without instanton technique; Phys. Lett. A; 278 (2000) 95.

[105] Zhou B., Liang J.Q., Pu F.C.; Effect of dissipation on the decay-rate transition on a circle; Phys. Lett. B; 496 (2000) 218.

[106] Zhou B., Xu J.Z. and Liang J.Q.; The cooperative transport of electrons and protons in the a-helix polypeptide chain; J. Phys.: Condens. Mat.; 12 (2000) 1649.

[107] Zhou B., Xu J.Z. and Liang J.Q.; Transfer of proton and electron in hydrogen-bonded chains; Mod. Phys. Lett. B; 14 (2000) 743.

[108] Zhou Y., Zheng D.J., Li D., Han B.S.; Formation of Multi-branched Domain in Magnetic Garnet Bubble Films; Chin. Phys. Lett.; 17 (2000) 52.

Surface

[1]  Bai X.D., Zhi C.Y., Wang E.G.; Nanofibers: synthesis, characterization, and photoluminescence properties; J. Nanosci. Nanotech.; 1 (2001) 55.

[2]  Bai X.D., Zhong D.Y., Zhang G.Y., Ma X.C., Liu S., Wang E.G., Chen Y., David T. Shaw; Hydrogen storage in carbon nitride nanobells; Appl. Phys. Lett.; 79 (2001) 1552.

[3]  Cao Z.X.; Electron cyclotron wave resonance plasma assisted deposition of cubic Boron Nitride thin films; J. Vac. Sci. Technol. A; 2 (2001) 485.

[4]  Cao Z.X.; Electronic structure and stability of C20 cluster; Chin. Phys. Lett.; 8 (2001) 1060.

[5]  Cao Z.X.; Equilibrium segregation of sulfur to the free surface of single crystalline Titanium; J. Phys.: Condens. Matter; (2001) 7923.

[6]  Cao Z.X.; Ion energy dependence of film properties for diamond like carbon prepared with plasma assisted deposition; J. Mater. Res.; 11 (2001) 3034.

[7]  Cao Z.X.; Nanocrystalline Silicon carbonitride thin films prepared by plasma beam assisted deposition; Thin Solid Films; 1-2 (2001) 94.

[8]  Chen Y., David T. Shaw, Bai X.D., Wang E.G., C. Lund, Lu W.M., D. D. L. Chung; Hydrogen storage in aligned carbon nanotube; Appl. Phys. Lett.; 78 (2001) 2128.

[9]  Fei Y.J., Wang X.J., Wang X., Xiong Y.Y., Feng K.A.; The effect of additional methane during the annealing process on diamond nucleation on polished polycrystalline nickel substrate; Appl. Surf. Sci.; 183 (2001) 173.

[10]  Guo L.W., H. Makino, Ko H. J., Chen Y.F., T. Hanada, Peng D.L., K. Inaba, Yao T.; Structural characteristic and magnetic properties of Mn oxide films grown by Plasma-assisted MBE; J. Cryst. Growth; 227-228 (2001) 955.

[11]  Guo L.W., Peng D.L.. H. Makino, T. Hanada, Hong S.K., K. Sumiyama, Yao T., K. Inabc; Structural characteristics, and magnetic properties of λ-MnO2 films grown by plasma-assisted molecular beam epitaxy; J. Appl. Phys.; 90 (2001) 351.

[12]  Guo Q.L., D. W. Goodman; Surface plasmon of Ag clusters on alumina films; Chin. Phys.(Suppl.); 10 (2001) 80.

[13]  Guo Q.L., Luo K., Kent A. Davis, D. W. Godman; Initial growth of Au on oxides; Surf. Interface Anal.; 32 (2001) 161.

[14]  Huang Q., Guo L.W., Zhang M.H., Zhang Y.F., Han Y.J., Zhou J.M.; Properties of deep levels and photorefractive effect in GaAs/AlGaAs multiple quantum wells grown in low-temperature; J. Cryst. Growth; 227-228 (2001) 117.

[15]  Jia H. Q., Chen H., Wang W. C., Wang W.X., Wan. L., Huang Q., Zhou J.M.; The study of thermal stability during wet oxidation of AlAs; J. Cryst. Growth; 223 (2001) 484.

[16]  L. Jian-Li, Liang X.J., Jia J.F., Liu X., Wang J.Z.,Xue Q.K.; Spontaneous formation of ordered indium quantum wire array on Si(001); Appl. Phys. Lett.; 79 (2001) 2826.

[17]  Li M.Z., J. F. Wendelken, Liu B.G., Wang E.G., Zhang Z.Y.; Decay characteristics of surface mounds with contrasting interlayer mass transport channels; Phys. Rev. Lett.; 86 (2001) 2345.

[18]  Li Z. Q., Chen H., Liu H.F., Wan L., Huang Q., Zhou J.M.; Photoluminescence study of Si doping cubic GaN grown on (001) GaAs substrates by molecular beam epitaxy; J. Cryst. Growth; 227-228 (2001) 420.

[19]  Liu H.F., Chen H., Li Z.Q., Wan L., Huang Q., Zhou J.M.; Effect of rapid thermal annealing on the structural characteristics of cubic GaN epilayers grown on GaAs(001) by MBE; J. Cryst. Growth; 222 (2001) 503.

[20]  Liu H.F., Chen H., Wan L., Li Z. Q., Huang Q., Zhou J.M.; Epitaxial growth and characterization of GaN Films on (001) GaAs substrates byradio-frequency molecular beam epitaxy; J. Cryst. Growth; 227-228 (2001) 390.

[21]  Liu J.W., Xie F.Q., Zhong D.Y., Wang E.G., Liu W.X., Li S.F., Yang H.; Photoluminescence of nanocrystalline SiC films prepared by rf magnetron sputtering; Chin. Phys.(Suppl.); 10 (2001) 36.

[22]  Liu J.W., Zhong D.Y., Xie F.Q., Sun M., Wang E.G., Liu W.X.; Synthesis of SiC nanofibers by annealing carbon nanotubes covered with Si; Chem. Phys. Lett.; 348 (2001) 357.

[23]  Liu S.J., Wang E.G., Woo C.H., Huang H.C.; Three-dimensional Schwoebel-Ehrlich barrier; J. Comput. Aid. Mater. Design; 7 (2001) 195.

[24]  Lu H., Shen D.H., Deng X.F., Xue Q.K., N. Froumin, and M. Polak; Study of the Al/graphite interface; Chin. Phys.; 10 (2001) 832.

[25]  Lu H., Shen D.H., Xue Q.K., M. Polak, and N. Froumin; X-ray photoelectron spectroscopy study of the metal and cermet interface; Chin. Phys. Lett. ; 18 (2001) 94.

[26]  Ma X.C., Wang E.G.; CNx/carbon nanotube junctions synthesized by microwave chemical vapor deposition; Appl. Phys. Lett.; 78 (2001) 978.

[27]  Qin L., Teo K. L., Shen Z. X., Peng C. S., Zhou J.M.; Raman scattering of Ge/Si dot superlattices under hydrostatic pressure; Phys. Rev. B; 64 (2001) 075312.

[28]  Sheng S.R., Liao X.B., Ma Z.X., Yue G.Z., Wang Y.Q., Kong G.L.; Hydrogenated amorphous silicon films with significantly improved stability; Solar Energy Mater. & Solar Cells; 68 (2001) 123.

[29]  Sheng S.R., Liao X.B., Kong G.L.; Gap states of hydrogenated amorphous silicon near and above the threshold of microcrystallinity with subtle boron compensation; Appl. Phys. Lett.; 78 (2001) 2509.

[30]  Sun J.M., Zhang Y.F., Han Y.J., Wang W.X., Bao C.L., Wan L., Zhou J.M., Huang Q., Feng B.H. and Zhang X.L.; Strong room-temperature exciton-photon coupling in low-finesse microcaritities grown by molecular beam epitaxy; J. Cryst. Growth; 227-228 (2001) 138.

[31]  Wan L., Duan X.F., Chen H., Liu H.F., Li Z.Q., Huang Q., Zhou J.M.; Nucleation of hexagonal AlN in nitridized AlAs buffer on (001) GaAs substrate; J. Cryst. Growth; 222 (2001) 507.

[32]  Wang E.G., Liu B.G., Wu J., Li M.Z., Zhong J.X., John Wendelken, Niu Q., Zhang Z.; Novel formation and decay mechanisms of nanostructures on surface; Chin. Phys.; 10 (2001) 144.

[33]  Wang X.J., Li H.D., Fei Y.J., Wang X., Xiong Y.Y., Nie Y.X., Feng K.A.; XRD and Raman study of vanadium oxide thin films deposited on fused silica substrates by RF magnetron sputtering; Appl. Surf. Sci; 177 (2001) 8.

[34]  Wu K.H., Wang X.R., Liu S., Wang E.G.; Bistable characteristic and current jumps in field electron emission of nanocrystalline diamond films; J. Appl. Phys.; 90 (2001) 4810.

[35]  Xie F.Q., P. von Blanckenhagen, Wu J., Liu J.W., Zhang W.Z., Chen Y.C., Wang E.G.; Contamination of Si surfaces in ultrahigh vacuum and formation of SiC islands; Appl. Surf. Sci.; 181 (2001) 139.

[36]  Xue Q. Z., Xue Q.K., S. Kuwano, K. Nakayama, and T. Sakurai; Growth mode and surface reconstruction of GaN (000-1) thin films on 6H-SiC(000-1); Chin. Phys.; 10 (2001) S157.

[37]  Xue Q.K., Xue Q.Z., S. Kuwano, K. Nakayama, T. Sakurai, T. Ohno, Qiu X.G., and Y. Segawa; Surface reconstructions and optical properties of Wurtzite GaN grown on 6H-SiC; J. Cryst. Growth; 229 (2001) 41.

[38]  Xue Q.Z., Xue Q.K., S. Kuwano, K. Nakayama, and T. Sakurai; N-plasma assisted molecular beam epitaxy of GaN (000-1) thin films on 6H-SiC(000-1); Jpn. J. Appl. Phys.; 40 (2001) 4388.

[39]  Yu J., Wang E.G., Bai X.D.; Electron field emission from carbon nanoparticles prepared by microwave-plasma chemical-vapor deposition; Appl. Phys. Lett.; 78 (2001) 2226.

[40]  Yu J., Zhang Q., J. Ahn, S. F. Yoon, Rusli, Gan B., K. Chew, Tan K. H., Bai X.D., Wang E.G.; Growth and structure of aligned B-C-N nanotubes Boron carbonitride; J. Vac. Sci. Technol. B; 19 (2001) 671.

[41]  Zhang M.H., Guo L.W., Li H.W., Wan. L., Huang Q., Bao C.L. and Zhou J.M.; Annealing-induced evolution of defects in low temperature-grown GaAs-related materials; Phys. Rev. B; 63 (2001) 115324.

[42]  Zhong D.Y., Liu S., Zhang G.Y. , Wang E.G.; Large-scale well aligned carbon nitride nanotube films: Low temperature growth and electron field emission; J. Appl. Phys.; 89 (2001) 5939.

[43]  Zhong D.Y., Zhang G.Y., Liu S., Wang E.G., Wang Q., Li H., Huang X.J.; Lithium storage in polymerized carbon nitride nanobells; Appl. Phys. Lett.; 79 (2001)3500.

Optical

[1]  Chang C.C., Tong Y.P., Chen T.C., Yau H.F., Ye P.X.; Mutually pumped phase conjugator using a BaTiO3 crystal having two inclined faces; Appl. Phys. B; 71 (2000) 47.

[2]  Chang C.C., Yau H.F., Cheng J., Ye P.X.; Pentagon-shaped 0°-cut BaTiO3 as an efficient self-pumped phase conjugator; Appl. Opt.; 38 (2000) 7206.

[3]  Chen F., Lu H.B., Zhao T., Jin K.J., Chen Z.H., Yang G.Z.; Real-time optical monitoring of the heteroepitaxy of oxides by an oblique-incidence reflectance difference technique; Phys. Rev. B; 61 (2000) 10404.

[4]  Chen L.M., Yu W., Zhang J., Chen Z.Y., Jiang W.M.; 2D semiclassical model for high harmonics; Sci. China Ser. A; 43 (2000) 1202.

[5]  Chen L.M., Zhang J., Li Y.T., Liang T.J., Wang L., Wei Z.Y., Jiang W.M.; Hot electrons generated by ultra-shot pulse laser interacting with solid targets; Sci. China Ser. A; 43 (2000) 1294.

[6]  Chen M.S., Shen Z.X., Tang S.H., Shi W.S., Cui D.F., Chen Z.H.; Stress effect on Raman spectra of Ce-doped BaTiO3 films; J. Phys.: Condens. Mat.; 12 (2000) 7013.

[7]  Cui D.F., Chen Z.H., Zhao T., Chen F., Lu H.B., Zhou Y.L., Yang G.Z., Huang H.Z., Zhang H.X.; Growth and surface analysis of BaTiO3 ultra thin film fabricated by laser molecular beam epitaxy; Microelectron Eng.; 51-52 (2000) 601.

[8]  Dai Z.F., Yue X.L., Peng B.X., Yang Q.G., Liu X.C, Ye P.X.; Third-order optical nonlinearities of near-infrared dyes; Chem. Phys. Lett.; 317 (2000) 9.

[9]  Gaebler V., Liu B.N., Eichler H. J., Zhang Z.G., Shen D.Z.; Efficient blue cw Nd:YAG microchip laser with two intracavity frequency doublers; Opt. Letter.; 25 (2000) 1643.

[10]  Gao L.H., Li X.F., Fu P.M., Freeman R.R., Guo D.S.; Nonperturbative quantum electrodynamics theory of high-order harmonic generation; Phys. Rev. A; 61 (2000) 063407-1.

[11]  Guo X.X., Chen Z.H., Cui D.F., Zhou Y.L., Huang H.Z., Zhang H.X., Liu F.Q., Ibrahim K., Qian H.J.; The colossal magnetoresistance (LaxSn1-x)yMnO3-d films studied by x-ray photoemission spectroscopy; J. Cryst. Growth; 219 (2000) 404.

[12]  Guo X.X., Chen Z.H., Dai S.Y., Zhou Y.L., Li R.W., Zhang H.W., Shen B.G.; Investigation of transport and magnetic properties of perovskite-type (La1-xSnx)yMnO3-d epitaxial films; J. Appl. Phys.; 88 (2000) 4758.

[13]  Guo X.X., Dai S.Y., Zhou Y.L., Chen Z.H., Yang G.Z., Liu F.Q., Ibrahim K.; Study of colossal magnetoresistance material La-Sn-Mn-O epitaxial films; Mater. Sci. Eng. B; 76 (2000) 18.

[14]  Guo Z., Li Y., Ge Z., Yan J., Zhu D., Si J., Ye P.; Langmuir-Blodgett films and optical second-harmonic generation of a crowned [60] fulleropyrrolidine; Appl. Phys. B; 71 (2000) 545.

[15]  Guo Z., Li Y., Yan J., Bai F., Li F., Zhu D., Si J., Ye P.; Photophysical properties of a crown ether-bearing [60] fulleropyrrolidine; Appl. Phys. B; 70 (2000) 257.

[16]  Jiang A.Q., Chen Z.H., Song W.H., Zhang L.D.; Imaging the collapse of macrodomains from coupling defect-dipole relaxation; Phys. Rev. B; 61 (2000) 5835.

[17]  Jiang Y.H., Yan J., Li J.M.; Photoionization of helium between the N=2 and N=5 thresholds of He+: Partial differential cross sections; Phys. Rev. A; 61 (2000) 032721.

[18]  Jin C.J., Cheng B.Y., Man B.Y., Li Z.L., Zhang D.Z.; Two-dimensional dodecagonal and decagonal quasiperiodic photonic crystals in the microwave region; Phys. Rev. B; 61 (2000) 10762.

[19]  Jin K.J., Sanders B.C., Pan S.H., Yang G.Z.; Quantum size effects in metal-induced Si(111) surface reconstructions; Surf. Sci.; 464 (2000) L739.

[20]  Li J.M., Yan J., Peng Y.L.; Spectral resolved X-ray transmission in hot dense plasmas; Radiat. Phys. Chem.; 59 (2000) 181.

[21]  Li Y.T., Zhang J., Chen L.M., Zhao L.Z., Xia J.F., Wei Z.Y., Jiang W.M.; Experimental studies of axial magnetic fields generated in ultrashort-pulse laser-plasma interaction; Sci. China Ser. A; 43 (2000) 1312.

[22]  Li Z.L., Ni .P.G., Cheng B.Y., Jin C.J., Zhang D.Z., Dong P., Guo X.C.; Silica Colloidal Crystals with Ethanol Solvent; Chin. Phys. Lett.; 17 (2000) 112.

[23]  Liao J., Wang X.G., Wu L.A., Pan S.H.; Superposition of negative binomial states; J. Opt. B; 2 (2000) 541.

[24]  Liu N.N., Sun J.M., Pan S.H., Chen Z.H., Shi W.S., Wang R.P., Wang X.G.; Third-order optical nonlinear properties of amorphous Si/SiO2 superlattices fabricated by magnetron sputtering; Opt. Commun.; 176 (2000) 239.

[25]  Liu N.N., Sun J.M., Pan S.H., Chen Z.H., Wang R.P., Shi W.S.; Optical properties of amorphous Si/SiO2 Superlattice; Superlatt. Microst.; 28 (2000) 157.

[26]  Liu S.B., Chen S.G., Liu J., and Zhang J.; Hydrodynamics of plasmas interaction with an intense laser field; Commun. Theor. Phys.; 33 (2000) 631.

[27]  Liu S.B., Zhang J. and Jiang W.M.; Neutron and pair production in interaction of relativistic laser pulse with plasmas; Chin. Phys. Lett.; 17 (2000) 120.

[28]  Liu X., Xu G., Si J., Ye P., Li Z., Shen Y.; Erasure effect of the reading beam on the decay process of x2 in all-optical poling; Appl. Phys. B; 71 (2000) 539.

[29]  Liu X.C., Xu G., Si J.H., Ye P.X., Li Z., Shen Y.Q.; Effect of temperature on the optical poling process in a side-chain polymer system; J. Appl. Phys.; 88 (2000) 3848.

[30]  Lo M., Dong B.Z., Gu B.Y., Meyrueis P.; Non-periodic diffractive phase element for wavelength-division (de) multiplexing; Optik; 173 (2000) 217.

[31]  Lu H.B., Wang N., Chen W.Z., Chen F., Zhao T., Peng H.Y., Lee S.T., Yang G.Z.; Laser molecular beam epitaxy of BaTiO3 and SrTiO3 ultra thin films; J. Cryst. Growth; 212 (2000) 173.

[32]  Man B.Y., Zhang J., Ni P.G., Zhang D.Z. ; High-Order Stimulated Raman Emission and Two-Photon Stimulated Emission by Photodissociation of PbI2 Molecules; Chin. Phys. Lett.; 17 (2000) 672.

[33]  Man B.Y., Zhang J., Ni P.G., Zhang D.Z.; Stimulated Emission at 722.9 nm by Laser Photodissociation of PbI2 Vapor; Chin. Phy. Lett.; 17 (2000) 801.

[34]  Mi X., Yu Z.H., Jiang Q., Wang Y.B., Wang L.J., Fu P.M.; Phase-sensitive detection of Raman-enhanced nondegenerate four-wave mixing; J. Opt. Soc. Am. B; 17 (2000) 1543.

[35]  Shen J.L., Zhang G.C., Dai J.H., Zhang H.J.; Transient lifetime spectrum and diffusion of two charged particles in a Paul trap; Chin. Phys.; 9 (2000) 424.

[36]  Sheng Z.M., Sentoku Y., Mima K., Zhang J., Yu W., Meyer-ter-Vehn J.; Angular Distributions of Fast Electrons, Ions, and Bremsstrahlung x/g-Rays in Intense Laser Interaction with Solid Targets; Phys. Rev. Lett.; 85 (2000) 5340.

[37]  Shi J.J., Sanders B.C., Pan S.H.; Coherent and phonon-assisted tunnelling in asymmetric double barrier resonant tunnelling structures; Australian J. Phys.; 53 (2000) 35.

[38]  Shi W.S., Chen Z.H., Liu N.N., Lu H.B., Zhou Y.L., Cui D.F., Yang G.Z.; Preparation and third-order nonlinear optical properties of self-organized complex oxide Ce: BaTiO3 quantum dots; Sci. China Ser. A; 43 (2000) 527.

[39]  Shi W.S., Chen Z.H., Zhao T., Lu H.B., Zhou Y.L., Yang G.Z.; Second-harmonic generation in Ce:BaTiO3 nanocrystallites grown by pulsed laser deposition; J. Opt. Soc. Am. B; 17 (2000) 235.

[40]  Song H., Dou S.X., Chi M., Zhu Y., Ye P.; Studies of impurity levels in Rh-doped and Ce-doped photorefractive BaTiO3; Appl. Phys. B; 70 (2000) 543.

[41]  Volkov V.V., Wang Z.L., Zou B.S., Xie S.S.; Low temperature optical properties of amorphous oxide nanoclusters in polymer matrix; Chin. Phys.; 9 (2000) 767.

[42]  Wang B.B., Li X.F., Fu P.M.; Extension of the high-order-harmonic-generation cutoff frequency by two-color excitation; Phys. Rev. A; 62 (2000) 063816-1.

[43]  Wang F.H., Shang J.X., Li J.M., Wang C.Y.; The effects of boron and hydrogen on the embrittlement of polycrystalline Ni3Al; Intermetallics; 8 (2000) 589.

[44]  Wang J.G., Zhang Z.G., Xu J.Z., Xu J.R., Fu P.M. Chen X.B.; Spectroscopic investigation on the properties of visible and near infrared emissions in Tm3+,Ho3+ Co-doped YVO4 Crystals; Chin. Phys.; 9 (2000) 210.

[45]  Wang P.Y., Xie P.; Eliminating spatiotemporal chaos and spiral waves by weak spatial perturbations; Phys. Rev. E; 61 (2000) 5120.

[46]  Wang R.P., Wang H.H., Zhou Y.L., Pan S.H., Liu C.F., Wu X., Zhou L.; Self-oxidized NiO on cube-textured Ni for YBCO coated superconductor; Phys. C; 339 (2000) 166.

[47]  Wang R.P., Zhou G.W., Liu Y.L., Pan S.H., Zhang Z.; Raman spectral study of silicon nanowires: high-order scattering and phonon confinement effects; Phys. Rev. B; 61 (2000) 16827.

[48]  Wang R.P., Zhou Y.L., Pan S.H., He M., Lu H.B., Chen Z.H., Yang G.Z., Liu C.F., Wu X., Wang F.Y., Feng Y., Zhang P.X., Wu X.Z., Zhou L.; Deposition of high-temperature superconducting films on biaxially textured Ni(001) substrates; Phys. C; 337 (2000) 87.

[49]  Wang X.G.; Coherent states displaced number states and laguerre polynomial states for su (1,1) Lie algebra; Int. J. Mod. Phys. B; 14 (2000) 1093.

[50]  Wang X.G.; Ladder operator formalisms and generally deformed oscillator algebraic structures of quantum states in Fock space; J. Opt. B; 2 (2000) 534.

[51]  Wang X.G.; Phase properties of hypergeometric states and negative hyper-geometric states; J. Opt. B; 2 (2000) 29.

[52]  Wang X.G.; Properties of superposition of displaced number states and their interaction with two-level atoms; Commun. Theor. Phys.; 33 (2000) 643.

[53]  Wang X.G.; Two-mode nonlinear coherent states; Opt. Commun.; 178 (2000) 365.

[54]  Wang X.G., Fu H.C.; Interaction of negative binomial states with two-level atoms; Commun. Theor. Phys.; 34 (2000) 155.

[55]  Wang X.G., Liu N.N., Pan S.H., Yang G.Z.; Curie temperature for a finite alternating ferroelectric superlattice; Phys. Status Solidi. B; 219 (2000) 15.

[56]  Wang X.G., Liu N.N., Pan S.H., Yang G.Z.; Curie temperature for an alternating magnetic superlattice; J. Magn. Magn. Mater.; 212 (2000) 121.

[57]  Wang X.G., Liu N.N., Pan S.H., Yang G.Z.; Phase transition properties of a two-component magnetic superlattice; Chin. Phys.; 9 (2000) 649.

[58]  Wang X.G., Liu N.N., Pan S.H., Yang G.Z.; Phase transitions in a transverse spin-1/2 Ising ferroelectric superlattices; Phys. Lett. A; 267 (2000) 434.

[59]  Wang X.G., Pan S.H.; Quantum fluctuations of a mesoscopic RLC circuit in a displaced squeezed Fock state; Chin. Phys. Lett.; 17 (2000) 171.

[60]  Wang X.G., Pan S.H., Yang G.Z.; Magnetization profiles of ferromagnetic Ising films in a transverse field; Chin. Phys. Lett.; 17 (2000) 132.

[61]  Wang X.G., Pan S.H., Yang G.Z.; Nonclassical properties and algebraic characteristics of negative binomial states in quantized radiation fields; Eur. Phys. J. D; 10 (2000) 415.

[62]  Wang X.G., Pan S.H., Yang G.Z.; Phase transitions in Ising magnetic films and superlattices; Solid State Commun.; 113 (2000) 59.

[63]  Wang X.G., Sanders B.C., and Pan S.H.; Entangled coherent states for systems with SU(2) and SU(1,1) symmetries; J. Phys. A; 33 (2000) 7451.

[64]  Wei Z.Y., Zhang J., Xia J.F., Feng B.H., Zhang X.L., Qiu Y.; Highly efficient TW multipass Ti: sapphire laser system; Sci. China Ser. A; 43 (2000) 1083.

[65]  Weng Y.X., Xiao H.; Direct observation of mass transfer at solid-liquid interface by laser flash photolysis of the interface probe molecules; J. Phys. Chem B; 104 (2000) 7713.

[66]  Weng Y.X., Xu J.Z., Pan J., Wang L., Yang G.Z.; Mimicry of triplet generation via radical pair recombination in the photosynthetic reaction center with an artificial solar cell reaction; Acta Botanica Sinica; 42 (2000) 1215.

[67]  Wu J.L., Xie P., Dai J.H., Zhang H.J.; Phase conjugator with two coherent beams in a BatiO3:Ce crystal; Sci. China Ser. A; 43 (2000) 743.

[68]  Xia J.F. and Wang N.Y.; Studies of the spatial distribution and beam quality of stokes output from a Raman generator pumped by a broad-band KrF laser; IEEE J. Quantum Elect.; 36 (2000) 533.

[69]  Xia J.F., Wei Z.Y., Zhang J.; Demonstration of high conversion efficiency to second harmonic in a wide tuning range; Opt. Laser Technol.; 32 (2000) 241.

[70]  Xie P., Wang P.Y., Dai J.H.; Electric-field-induced frequency shift and temporal instability in a self-pumped phase conjugateor using BaTiO3; Opt. Commun.; 177 (2000) 413.

[71]  Xie P., Wang P.Y., Dai J.H.; Origin of frequency shift and temporal instability in photorefractive self-pumped phase conjugator; J. Opt. Soc. Am. B; 17 (2000) 1182.

[72]  Xie P., Wang P.Y., Dai J.H.; Stabilization of unstable steady states in photo-refractive phase conjugators; J. Opt. Soc. Am. B; 17 (2000) 1004.

[73]  Xu G., Liu X.C., Si J.H., Ye P.X., Li Z., Shen Y.Q.; Modified theory of photoinduced molecular polar alignment in azo polymers; Opt. Lett.; 25 (2000) 329.

[74]  Xu J.Z., Wang L., and Yang G.Z.; Spatial and Temporal Evolution of Ultra-Wide-Band Electromagnetic Pulses in Propagation; Chin. Phys. Lett.; 17 (2000) 568.

[75]  Xu J.Z., Wang L., and Zhang X.C.; Terahertz technology and its applications; Opto. News & Lett.; 87 (2000) 10.

[76]  Xu J.Z., Wang L., Yang G.Z.; Effects of spectral linewidth of ultrashort pulses on the spatiotemporal distribution of diffraction field; Chin. Sci. Bull; 45 (2000) 2388.

[77]  Xu Y.Q., Qu Y.Z., Zhang X.H., Li J.M.; Theoretical study of dielectronic recombination between electrons and heliumlike carbon ions; Phys. Rev. B; 62 (2000) 022715.

[78]  Yan J., Li J.M.; Theoretical simulation of the transmission spectra of Fe and Ge plasmas; Chin. Phys. Lett.; 17 (2000) 194.

[79]  Yang G.Z., Li Z.Y., Gu B.Y., Lee S.T.; Theoretical analysis of thin film epitaxial growth monitored by differential reflectance; J. Appl. Phys.; 87 (2000) 739.

[80]  Yao X.C., Li Z.L., Cheng B.Y., Han X.H., Zhang D.Z.; Increasing transverse stability of optical tweezers by using dual-gaussian beam profile; Chin. Phys. Lett.; 9 (2000) 65.

[81]  Yao X.C., Li Z.L., Guo H.L., Cheng B.Y., Han X.H., Zhang D.Z.; Effect of spherical aberration introduced by water solution on trapping force; Chin. Phys.; 9 (2000) 824.

[82]  Zhang G.C., Shen J.L., Dai J.H., Zhang H.J.; A new method to cool charged partcles in a paul trap; Int. J. Of Chaos and APPL; 5 (2000) 1.

[83]  Zhang H.L., Hou W., Feng B.H., Xu Z.Y., B.C. Wu, C.T. Chen; 890mW Diode Pumped Nd:YVO4 Intracavity-doubled Red Light Laser; Chin. J. Lasers B; 9 (2000) 30.

[84]  Zhang J., Gu Y.Q., Li Y.J., Li Y.T., Chunyu S.T., You Y.L., Huang W.Z., He S.T., He Y.L., Lu L.Z., Yuan X.D., Wei X.F., Zhang C.F.; Reseach on efficient X-Ray lasing at XingGuang II laser facility; IEEE J. Sel. Top. Quant.; 5 (1999) 1469.

[85]  Zhang W.H., Zhong Z.P., Li J.M.; Inner-shell photoabsorption spectra --- A theoretical study to determine the geometry structure of the core excited methane; Sci. China Ser. A; 43 (2000) 871.

[86]  Zhang X.D., Zhang Z.Q., Li L.M., Jin C., Zhang D., Man B., Cheng B.; Enlarging a photonic band gap by using insertion; Phys. Rev. B; 61 (2000) 1892.

[87]  Zhang Y.P., Lu K.Q., Wu H.C., Xu J., Fu P.M.; Nonlinear effects of third-and fifth-order on polarization beats in four-level system; Chin. Phys.; 9 (2000) 606.

[88]  Zhang Y.P., Sun L.Q., Tang T.T., Fu P.M.; Fourth-order interference on polarization beats in a four-level system; J. Opt. Soc. Am. B; 17 (2000) 690.

[89]  Zhang Y.P., Sun L.Q., Tang T.T., Zhang L., Fu P.M.; Fourth-order interference on polarization beats with phase-conjugation geometry; Chin. Phys. Lett.; 17 (2000) 206.

[90]  Zhang Y.P., Tang T.T., Sun L.Q., Fu P.M.; Effects of fourt-order coherence on ultrafast modulation spectroscopy; Phys. Rev. A.; 61 (2000) 023809-1.

[91]  Zhang Y.P., Wu H.C., Wang P.H., Li C.S., Fu P.M.; Phase fluctuations on raman-enhanced nondegenerate four-wave mixing; Chin. Phys.; 9 (2000) 599.

[92]  Zhang Y.Z., Luo J. , Nie Y.X.; Proposed new test of equivalence principle from rotating bodies; Chin. Phys. Lett.; 17 (2000) 324.

[93]  Zhao L.Z., Zhang P., Feng B.H., Wei Z.Y., Zhang J.; Diagnostics of Femtosecond Laser-Plasmas Using Fundamental and Second Harmonic Emission; Chin. Phy. Lett.; 17 (2000) 818.

[94]  Zhao T., Chen F., Lu H.B., Yang G.Z., Chen Z.H.; Laser molecular-beam epitaxy and second-order optical nonlinearity BaTiO3/SrTiO3 superlattices; Sci. China Ser. A; 43 (2000) 760.

[95]  Zhao T., Chen F., Lu H.B., Yang G.Z., Chen Z.H.; Thickness and oxygen pressure dependent structural characteristics of BaTiO3 thin films grown by laser molecular beam epitaxy; J. Appl. Phys.; 87 (2000) 7442.

[96]  Zhao T., Chen Z.H., Chen F., Lu H.B., Yang G.Z., Cheng H.S.; Electrical and optical properties of strongly reduced epitaxial BaTiO3-x thin films; Appl. Phys. Lett.; 77 (2000) 4338.

[97]  Zhao T., Lu H.B., Chen F., Dai S.Y., Yang G.Z., Chen Z.H.; Highly conductive Nb doped SrTiO3 epitaxial thin films grown by laser molecular beam epitaxy; J. Cryst. Growth; 212 (2000) 451.

[98]  Zhao T., Lu H.B., Chen F., Yang G.Z., Chen Z.H.; Stress-induced enhancement of Second-order nonlinear optical susceptibilities of barium titanate films; J. Appl. Phys.; 87 (2000) 7448.

[99]  Zhong Z.P., Zhang W.H., Li J.M.; Quantum defect theory of the molecular photoabsorption processes: NO spectra in the energy region 9.4---22.0 eV; J. Chem. Phys.; 113 (2000) 136.

[100] Zhou Z.B., Luo J., Yan Q., Zhang Y.Z., Nie Y.X.; Seismic Noise effect on Equivalence Principle Test Using Free-Fall Interferometry; Chin. Phys. Lett.; 18 (2000) 10.

[101] Zou B.S., Wang J.P., Xie S.S.; Quantum confined polaron state and visible emission in porous silicon; Phys. Low-Dimens. Str.; 3/4 (2000) 93.

[102] Zou B.S., Xie S.S.; Interfacial polaron in quantum dots and luminescent porous silicon; Chin. Sci. Bull; 45 (2000) 2267.

Extreme Conditions

[1]  Bao Z.X., Chu J.H., Liu C.X., Gu H.C., Liu K.Y., Li B., Wang J.L.; Electrical properties, equations of state and phase transformations in Hg­1-xCdxTe at high pressure; Chin. J. High Press. Phys.; 14 (2000) 28.

[2]  Bao Z.X., Chu J.H., Liu C.X., Liu K.Y., Wang J.Y.; Electrical properties, equations of state and phase transformations in Cd1-xZnxTe at high pressure; Chin. J. High Press. Phys.; 14 (2000) 269.

[3]  Bao Z.X., Schmidt V.H., Dalal N.S., Tu C.S., Pinto N.J., Liu C.X., Li Y.L., Zhu D.B.; Electrical properties, equations of state and phase transformations in solid C60 at high pressure; Chin. Phys.; 9 (2000) 676.

[4]  Chen G.H., Du H. and Yang Q.S.; Thernal noise in digital dc-SQUIDs; Inst. Phys. Conf. Ser.; 14-17 (2000) 465.

[5]  Dai J. and Wang Y.; Absence of over-screened Kondo effect in a Ferromagnetic spin Chain; Phys. Rev. B; 62 (2000) R759.

[6]  Gu H.C., Chen L.C., Chu J.H., Bao Z.X., Liu K.Y., Wang J.Y., Zheng K.L.; Structures and the equation of state of Hg1-xCdxTe under high pressure; Chin. J. High Press. Phys.; 14 (2000) 298.

[7]  Han B., Chen G.H., Zhang L.H., Zhao S.P., Yang Q.S., Yan S.L. and Lu R.t.; Tl2Ba2CaCu2Ox bicrystal junction dc-SQUID magnetometers operating in unshielded environment; Chin. Phys. Lett.; 17 (2000) 847.

[8]  Han B., Chen S.; Correlation function of Potts model on Bethe lattice; Chin. Phys. Lett.; 17 (2000) 549.

[9]  Han B., Wang J., Lu R.t., He M., Xu F.Z, Zhao S.P., Chen G.H., Yan S.L. and Yang Q.S.; Bicrystal grain boundary Josephson junctions with epitaxial Tl2Ba2CaCu2Ox thin films; Physica C; 341-348 (2000) 2727.

[10]  Hou Y.M., Jin D., Yang F.M., He Y.S., Yan S.S.; Spin-charge seperation phenomena inCeNiSn; Physica C; 341-348 (2000) 883.

[11]  Li C.G., He Y.S., Jin D., Chen Z.J., Xiong G.C., Lian G.J., Yin D.L.; Strong quantum fluctuations of vortex movements in Y1Ba2Cu3O7-d ultra-thin films; Physica C; 341-348 (2000) 1031.

[12]  Li C.G., Jin D., He Y.S., Xiong G.C., Lian G.J. and Yin D.L.; E-J characteristics of Y1-xPrxBa2Cu3O7-d thin films nea S-N transition; Physica C; 341-348 (2000) 1897.

[13]  Li C.G., Li H., Jin D., He Y.S., Xiong G.C., Lian G.J., Yin D.L.; Study of upper critical magnetic field of (Y1-xprx) Ba2Cu3O7-d thin films; Physica C; 341-348 (2000) 2047.

[14]  Li C.G., Zheng P., Jin D., Chen Z.J., He Y.S., Xiong G.C., Lian G.J., Yin D.L., Gough C.E.; Quantum tunneling effect in YBCO super-thin films; Physica B; 284-288 (2000) 577.

[15]  Li F.H., Wang D., He W.Z. and Jiang H.; Amplitude correction in image deconvolution for determining crystal defects at atomic level; J. Electron Microsc.; 49 (2000) 17.

[16]  Li F.Y., Fu S.S., Wang R.J., Manghnani M.H.; Elastic properties of float glass and SiO2+TiO2 glass under high pressure; Acta Physica Sinica; 49 (200) 2129.

[17]  Li G., Zhan Z.J., Wang Cao L.M. L.M., Sun L.L., Dai D.Y., Zhang J., Wang W.K.; Gravity effect on mircostructure of Zr41Ti12.5Cu13 Ni10Be22.5 bulk amorphous forming alloy; Chin. Sci. Bull.; 45 (2000) 2598.

[18]  Li S.P., Zhao S.X., Pan M.X., Zhao D.Q., Chen X.C.; Eutectic reaction and microstructural characteristics of Al(Li)-Mg2Si; J. Mater. Sci.; 35 (2000) 1.

[19]  Li Z.L., Liu W., Yang S.X., Xu W., Li F. H.; Projected structure of uroplakins in urothelium of rabbit urinary bladder at 20 Å resolution; Prog. Nat. Sci.; 10 (2000) 520.

[20]  Li Z.Y., Lin L.L., and Zhang Z.Q.; Spontaneous emission from photonic crystals: full vectorial calculations; Phys. Rev. Lett.; 84 (2000) 4341.

[21]  Liu S.M., Jing X.N., Lu L., Li S.L., Lin J. J., and Zhang D.L.; Superconductivity of a-TiAl alloys; Physica C; 341-348 (2000) 1961

[22]  Liu S.M., Zhang D.L., Jing X.N., Lu L., Li S.L., Kang N., Wu X.S., and Lin J. J.; Upper critical field of Ti and a-TiAl alloys: Evidence of an intrinsic type-II Superconductivity in pure Ti; Phys. Rev. B; 62 (2000) 8695

[23]  Liu Z.X., Fei Y., Meng X.R., Wong H.K; Pressure effects on magnetic properties of LaCaMnO thin films; Chin. J. High Press. Phys.; 14 (2000) 1.

[24]  Loram J.W., Luo J.L., Cooper J.R., Liang W.Y. and Tallon J.L.; The condensation energy and pseudogap energy scale of Bi: 2212 from the electronic specific heat; Physica C; 341-348 (2000) 831.

[25]  Lu L., Zhao Y.M., Zhao Y.G., Jing X.N., Li S.L., Xiong J.W., Zhang D.L.; Which phase contributes to the normal-state gap structure in underdoped cuprates?; Physica C; 341-348 (2000) 933

[26]  Luo J.L., Loram J.W., Cooper J.R., Mirza K.A., Jin D.; Specific heat of Y0.8Ca0.2Ba2Cu3O7-δ in magnetic fields; Physica B; 284-288 (2000) 1045.

[27]  R.C. Yu, Yakimansky A.V., Kothe H., et al.; Strategies for structure solution and refinement of small organic molecules from electron diffraction data and limitations of the simulation approach; Acta Crys. A; 56 (2000) 436.

[28]  Shi T.F., Li H., He A.S., Zhang T.P., Yang L.W., Zhou Y., Sun Y.W., He M., Zhou Y.L., He Y.S.; A practical microwave subsystem of HTS filter integrated with coaxial pulse tube refrigerator; Physica C; 341-348 (2000) 2661.

[29]  Sun L.L. and Wang W.K.; Solidification of PdNiP alloy on board Chinese Recoverable Satellite; Mater. Sci. Forum; 329-330 (2000) 265.

[30]  Sun L.L., Wang W.K., He D.W., Wang W.H., Wu Q., Zhang X.Y., Bao Z.X., Zhao Q.; Reversible phase transition between amorphous and crystalline in Zr41.2Ti13.8Cu12.5Ni10Be22.5 under high pressure at room temperature; Appl. Phys. Lett.; 76 (2000) 2874.

[31]  Sun L.L., Wu Q., Wang L.M., Dai D.Y., Bao Z.X., and Wang W.K.; Phase transition of Zr41.2Ti13.8Cu12.5Ni10Be22.5 bulk metallic glass at pressures up to 27Gpa; Philo. Mag. Lett.; 80 (2000) 793.

[32]  Voit J., Wang Y. and Grioni M.; Bounded Luttinger liquid as a universality class of quantum critical behavior; Phys. Rev. B; 61 (2000) 7930.

[33]  Wang D., Li F. H., Zou J.; Distinguishing glide and shuffle types for 60° dislocation in semiconductors by field-emission HREM image processing; Ultramicroscopy; 85 (2000) 131.

[34]  Wang L.M., Sun L.L., Wang W.H., Wang R.J., Zhan Z.J., Dai D.Y., and Wang W.K.; Elastic constants of Pd39Ni10Cu30P21 bulk metallic glass under high pressure; Appl. Phys. Lett.; 77 (2000) 3734.

[35]  Wang L.M., Wang W.H., Sun L.L., Zhao J. H., Dai D.Y., and Wang W.K.; Structure and crystallization of bulk amorphous Pd41Ni10Cu28P21 alloy; Sci. China Ser. A; 43 (2000) 407.

[36]  Wang L.M., Wang W.H., Wang R.J., Zhan Z.J., Dai D.Y., Sun L.L., and Wang W.K.; Ultrasonic investigation of Pd39Ni10Cu30P21 bulk metallic glass upon crystallization; Appl. Phys. Lett.; 77 (2000) 1147.

[37]  Wang N. L., Clayman B., Mori H., and Tanaka S.; Far-infrared study of the insulator-metal transiton in kappa-(BEDT-TTF)2 Evidence for polaron absorption; J. Phys. Condens. Mat.; 12 (2000) 2867.

[38]  Wang R.F., Zhao S.P., Chen G.H. and Yang Q.S.; Absolute Measurement of Penetration Depth in a Superconducting Film by the Two-Coil Technique; Appl. Phys. Lett.; 75 (1999) 3865.

[39]  Wang R.F., Zhao S.P., Chen G.H. and Yang Q.S.; Magnetic penetration depth in Nb/Al and Nb/Cu superconducting proximity bilayers; Phys. Rev. B; 62 (2000) 11793.

[40]  Wang R.J., Li F.Y. et al; Ultrasonic study on Nd3+:YVO4 crystals; Chin. J. Lasers; 27 (2000) 449.

[41]  Wang R.J., Shen Z.Y., Jin F.Q.; Pressure induced softening on elastic properties of tunngsten carboide alloy; Tech. acoustics; 19 (2000) 215.

[42]  Wang W.H.; Carbon addition-induced bulk Zr-based bulk metallic glass matrix composite containing ZrC particles; Mater. Lett.; 44 (2000) 59.

[43]  Wang W.H. et al.; Supersoftnening of transverse phonons in Zr41Ti14Cu12.5Ni10Be22.5 bulk metallic glass; Phys. Rev. B; 62 (2000) 25.

[44]  Wang W.H., Bao Z.X.; Pressure –volume relation of the Zr-based bulk amorphous alloy; Mater. Sci. Forum; 342-246 (2000) 146.

[45]  Wang W.H., Bao Z.X. et al; Eqation of state of ZrTiCuNiBe bulk amorphous alloy; Phys. Rev. B; 61 (2000) 3166.

[46]  Wang W.H., Wang R.J., Pan M.X., Yao Y.S.; Microstructural transformation in ZrTiCuNiBe bulk metallic glass under high pressure; Phys. Rev. B; 62 (2000) 11292.

[47]  Wang W.H., Wei Q., Friedrish S.; Effect of phase separation on crystallization in ZrTiCuNiBe bulk amorphous alloy; J. Mater. Sci.; 35 (2000) 2291.

[48]  Wang W.H., Zhou Y.Q., Chen Z.J., Zheng P., Jin D., Wang Y.P.; New resistance anomaly in superconducting Bi2Sr2CaCu2O8 single crystals; Chin. Phys. Lett.; 17 (2000) 907.

[49]  Wang W.H., Zhuang Y.X., Wang R.J. et al; Ultrasonic attenuation of ZrTiCuNiBe bulk metallic glass under high pressure; J. Appl. Phys.; 88 (2000) 3266.

[50]  Wang W.H., Zhuang Y.X., Yao Y.S. et al; Glass transition behavior, crystallization kinetic, and microstructural change of ZrTiCuNiBe bulk metallic glass under high pressure; J. Appl. Phys.; 88 (2000) 3914.

[51]  Wang W.K., Liu R. P., Zhou Z. H., Cao L.M., and Sun L.L.; Nucleation in undercoold Ge73.7Ni26.3 alloy melt induced by Ni, Cu and Si clusters; Mater. Sci. Forum; 329-330 (2000) 5.

[52]  Wang Y. and Schlottmann P.; Open SU(4)-invariant spin ladder with boundary defects; Phys. Rev. B; 62 (2000) 3845.

[53]  Wang Y., Schlottmann P.; Coqblin-Schriffer impurity in a singular metal; Phys. Rev. B; 62 (2000) 6877.

[54]  Yang S.X., Li F. H.; Image doconvolution for protein crystals; Ultramicroscopy; 85 (2000) 51.

[55]  Zhai H.Y., Zhang L., Chu W.K., Morishita T., Xu F.Z., Yang Q.S.; Dynamic study and experimental ‘two-step process’ of substrate step preparation for high Tc Josephson junctions; Appl. Phys. Lett.; 76 (2000) 1312.

[56]  Zhang X.Q., He Y.S., Xu L.F., Gao Z.X., Wang S.G., Dai Y.D.; The anomaly of current - voltage characteristics of mesoscopic aluminum lines; Physica B; 284-288 (2000) 1966

[57]  Zhang X.Q., Xu L.F., He Y.S., Gao Z.X., Wang S.G., Dai Y.D.; The interaction of phase slip centers in mesoscopic aluminum line; Physica C; 341-348 (2000) 2013.

[58]  Zhang Y., Zhao D.Q., Wang R.J., Pan M.X., Wang W.H.; Glass forming ability and properties of Zr/Nb-based bulk metallic glasses; Mater. Trans. JIM; 41 (2000) 1423.

[59]  Zhang Y., Zhao D.Q., Wang R.J., Pan M.X., Wang W.H.; The Effects of iron addition on the glass-forming ability and properties of Zr-Ti-Cu-Ni-Be-Fe Bulk Metallic glass; Mater. Trans. JIM; 41 (2000) 1427.

[60]  Zhao D.Q., Pan M.X., Wang W.H.; Formation ZrTiCuNiFeBe Bulk Metallic Glasses based composite; Mater. Trans. JIM; 41 (2000) 1410.

[61]  Zhao J.H., Liu R.P. et al; Determine of interdiffusion coefficients of liquid Zn and Sn under coneectionless conditions; Appl. Phys. A; 70 (2000) 219.

[62]  Zhao S.P.; Coherence effects in conventional layered superconductors; Phys. Rev. B; 61 (2000) 8671.

[63]  Zhao S.P., Chen G.H., and Yang Q.S.; Effect of nonzero interface resistance on perpendicular upper critical field in layered superconductors; Physica C.; 341-348 (2000) 273.

[64]  Zheng P., Chen Z.J., Jiang Q. and Jin D.; Macroscopic quantum coherence in charge density wave whisker NbSe3 under strain; J. Phys. Condens. Mat.; 12 (2000) 5745.

[65]  Zheng P., Zhou Y.Q., Jing X.N., Li shanlin, Wang W.H., Chen Z.J., He Y.S., Jin D.; The structure-induced abnormal critical current characteristics of vortex line in Bi2212 whisker; Physica B; 284-288 (2000) 1003.

[66]  Zhou Y.Q., Zheng P., Wang W.H., Chen Z.J., He Y.S., Jin D.; The effect of current along c direction on the ab plane superconducting properties of Bi2212 crystal; Physica B; 284-288 (2000) 1001.

[67]  Zhou Z. H., Zhao J. H., Sun L.L., Dai D.Y., and Wang W.K.; Specific heat and solidification of undercooled Bi-Sb alloy melts; Mater. Sci. Form; 329-330 (2000) 513.

[68]  Zhou Z., Wang W.; Undercooling and metastable phase formation in a Pb95Sb5 melt; Appl. Phys. A; 71 (2000) 261.

[69]  Zhou Z., Zhao J., and Wang W.; Phase selection during solidification of undercooled bulk Bi95Sb5 melts; J. Mater. Res.; 15 (2000) 4.

[70]  Zhou Z.H., Zhao J.H., Wang W.K., Sun L.L.; Formation of bulk b-FeSi2 by annealing rapidly solidified a-FeSi2 ribbons; J. Mater. Res.; 15 (2000) 1045.

[71]  Zhuang Y.X., Wang W.H.; Effects of relaxation on glass transition and Crystallization of ZrTiCuNiBe bulk metallic glass; J. Appl. Phys.; 87 (2000) 8209.

[72]  Zhuang Y.X., Zhao D.Q., Zhan Y., Wang W.H., Pan M.X.; Kinetics of glass transition and crystallization in multiconponent bulk amorphous alloys; Sci. China Ser. A; 43 (2000) 1195.

[73]  Ziaei M.E., Wang N.L., Clayman B.P., and Gu G.D.; Ab-plane optical properties of Fe-substituted Bi2Sr2CaCu2O8+y; Phys. Rev. B; 62 (2000) 9818.

Electron Microscopy

[1]  Chen H., Huang R.B., Tang Z.C., Zheng L.S., Zhou G.W., Zhang Z.; Single titanium crystals encapsulated in carbon nanocages obtained by laser vaporization of sponge titanium in benzene vapor; Appl. Phys. Lett.; 77 (2000) 91.

[2]  Chen X.M., Gui J.N., Wang R.H., Wang J.B., Liu J., Chen F.Y., Wang D.H.; Orientation relationships of martensite variants determined by electron backscatter diffraction; Micron; 31 (2000) 17.

[3]  Demange V., Wu J.S., Brien V., F. Machizaud, Dubois J.M.; New approximant phases in Al-Cr-Fe; Mater. Sci. Eng.; 294-296 (2000) 79.

[4]  Ding Y., Liu J.S., Wang Y.N.; Transmission electron microscopy study on ferroelectric domain structure in SrBi2Ta2O9 ceramics; Appl. Phys. Lett.; 76 (2000) 103.

[5]  Gao H.J. and Peng L.M.; Debye-Waller factors of compounds with the cesium chloride structure; Acta Cryst. A; 56 (2000) 519.

[6]  Gao M., Peng L.M.; Characterization of heavily Cu-doped La2CuO4+δ by transmission electron microscopy and electron energy loss spectroscopy; Phys. Rev. B; 62 (2000) 5413.

[7]  Gu F.M., Bu H.S., Zhang Z.; A unique morphology of freeze-dried poly (ethylene oxide) and its transformation.; J. Polym.; 41 (2000) 7605.

[8]  Hu G.B., Peng L.M., Yu Q.F., Lu H.Q.; Automated identification of symmetry in CBED patterns: a genetic approach; Ultramicroscopy; 84 (2000) 47.

[9]  Kuo K.H.; Electron microscopy of aperiodic materials invited and contributed papers from a symposium at the ICEM14, Cancun, Mexico, 3 September 1998, in honour of Professor KUO K.H.; Micron; 31 (2000) 457.

[10]  Lei C.H., Xu Q., Sun Y.Q.; TEM Investigation of Interfaces between Ti3Al5 and TiAl2L; Phys. status solidi. A; 179 (2000) 77.

[11]  Lei J.L., Wang R.H., Hu C.Z., Ding D.H.; Diffuse scattering from dodecagonal quasicrystals; Eur. Phys. J. B.; 13 (2000) 21.

[12]  Li J.M., Gao M., Duan X.F., Wang F.L.; Properties of proton-implanted p-type Si: supports for the models explaining a novel p-n junction in Si; Nucl. Instrum. Meth. B; 160 (2000) 190.

[13]  Liu J.Q., Luo Z.S., Cui F.Z., Duan X.F., Peng L.M.; High-resolution transmission electron microscopy investigation of a highly adhesive hydroxyapatite coating/titanium interface fabricated by ion-beam-assisted deposition; John Wiley & Sons, Inc.; 52 (2000) 115.

[14]  Lu C.j., Wang Z.L., Kwon C., Jia Q.X.; Microstructure of epitaxial La0.7Ca0.3MnO3 thin films grown on LaAlO3 and SrTiO3; J. Appl. Phys.; 88 (2000) 4032.

[15]  Lu C.j., Wang Z.L., Xiong G.C., Lian G.J.; Layered microdomains and columnar grains in epitaxial La0.7Ca0.3MnO3 films and Y0.7Ca0.3MnO3/ La0.7Ca0.3MnO3 multilayers; J. Mater. Res.; 15 (2000) 2454.

[16]  Luo Z.P., Hashimoto H.; High-resolution electron microscopy observation of a new crystalline approximant W’ of Mg-Zn-Y icosahedral quasicrystal; Micron; 31 (2000) 487.

[17]  Luo Z.P., Zhang S.Q.; High-resolution electron microscopy on the X-Mg12ZnY phase in a high strengh Mg-Zn-Zr-Y magnesium alloy; J. Mater. Sci. Lett.; 19 (2000) 813.

[18]  Mo Z.M., Kuo K.H.; A family of hexagonal approximants of decagonal quasicrystals; Mater. Sci. Eng.; 294-296 (2000) 242.

[19]  Mo Z.M., Zhou H.Y., Kuo K.H.; Structure ofυ-Al80.61Cr10.71Fe8.68 a giant hexagonal approximant of a quasicryatal determined by a combination of electron microscopy and X-ray diffraction; Acta Cryst. B; 56 (2000) 392.

[20]  Peng L.M.; Quasi-dynamical electron diffraction — A kinematic type of expression for the dynamical diffracted beam amplitudes; Acta Cryst. A; 56 (2000) 51.

[21]  Peng L.M. and Aragon J.L.; Electron microscopy of aperiodic materials – forward; Micron; 31 (2000) 457.

[22]  Peng L.M., Dong Z.F., Dong X.L., Zhao B.R., Duan X.F., Zhao Z.X.; Incommensurate valence modulation in high-TC cuprates; Micron; 31 (2000) 551.

[23]  Peng L.M., Gao M., Dong Z.F., Dong X.L., Zhao B.R.; Charge modulations in La2CuO4-based cuprates; Phys. Rev. B.; 62 (2000) 189.

[24]  Peng L.M., Zhang Z.L., Xue Z.Q., Wu Q.D., Gu Z.N., Pettifor D.G.; Stability of Carbon Nanotubes: How Small Can They Be?; Phys. Rev. Lett.; 85 (2000) 3249.

[25]  Sun H.P., Li D.M., Yu S., Zou G.T., Zhang Z.; Zn nanocrystals discovered from pencil-core; J. Mater. Sci. Lett.; 19 (2000) 875.

[26]  Sun H.P., Zhang Z., Wang W.D., Jang H.W., Lai W.Y.; Microstructure of columnar crystallites in Ni80Fe20/Cu magnetic mulilayers; J. Appl. Phys.; 87 (2000) 2835.

[27]  Wang R.H., Hu C.Z., Lei J.L., Ding D.H.; Theoretical aspects of thermal diffuse scattering from quasicrystals; Phys. Rev.; 61 (2000) 5843.

[28]  Wu J.S., Brien V., Brunet P., Dong C., Dubois J.M.; Electron microscopy study of scratch-induced surface microstructures in an Al-Cu-Fe icosahedral quasicrystal; Phil. Mag. A; 80 (2000) 1645.

[29]  Wu J.S., Brien V., Brunet P., Dong C., Dubois J.M.; Scratch induced surface microstructures on the deformed surface of Al-Cu-Fe icosahedral quasicrystals; Mater. Sci. Eng.; 294-296 (2000) 846.

[30]  Wu J.S., Kuo K.H.; A structural model of the orthorhombic Ga7Mn5 derived from its HREM image; Micron; 31 (2000) 459.

[31]  Yang G.Y., Zhu J., Wang W.D., Zhang Z., Zhu F.W.; Precipitation of nanoscale Co particles in a granular Cu-Co alloy with giant magnetoresistance; Mater. Res. Bull.; 35 (2000) 875.

[32]  Yuan Z.Y., Zhou W.Z., Peng L.M.; Synthesis of microporous silica in the presence of dodecyldimethylbenzylammonium chloride sutfactant; Chem. Lett.; 10 (2000) 1150.

[33]  Zhang Z.L., Du X.H., Wang W.D.; Study of the double layer CeO2/Nb2O5 thin film; J. Vac. Sci. Technol. A; 18 (2000) 2928.

[34]  Zhang Z.L., Li B., Shi Z.J., Gu Z.N., Xue Z.Q. and Peng L.M.; Filling of single-walled carbon nanotubes with silver; J. Mater. Res.; 15 (2000) 2658.

[35]  Zhang Z.L., Lin Q.Y., Yu Z.S.; Grain boundary segregation in ultra-low carbon steel; Mater. Sci. Eng. A; 291 (2000) 22.

[36]  Zhang Z.L., Lin Q.Y., Yu Z.S.; Non-equilibrium intergranular segregation in ultra low carbon steel; Mater. Sci. Tech.; 16 (2000) 305.

[37]  Zhang Z.L., Xiao Z.G., Wu X.B., Yu Z.S.; Characterization of the microstructure of Co thin film on silicon substrate by TEM; J. Elect. Mater.; 29 (2000) 617.

[38]  Zhou W.; HRTEM investigation of mesoporous molecular sieves; Micron; 31 (2000) 605.

Vacuum Physics

[1]  Fu Y., Wu X.F., Wang Y., Liu B., and Yang S.Z.; Study of corrosion resistance property and microstructure of TiNi shape memory alloy modified by pulsed high-energy density plasma; Appl. Surf. Sci.; 157 (2000) 167.

[2]  Gao H.J., Sohlberg K., Xue Z.Q., Chen H.Y., Hou S.M., Ma L.P., Fang X.W, Pang S.J., and Pennycook S.J.; Reversible nanometer-scale conductance transitions in an organic complex; Phys. Rev. Lett.; 84 (2000) 1780.

[3]  Gu Y.S., Zhang Y.P., Chang X.R., Tian Z.Z., Chen N.X., Shi D.X., Zhang X.F., Yuan L.; Synthesis and characterization of C3N4 hard films ; Sci. China Ser. A; 43 (2000) 185.

[4]  Huang J.G., Yang X.Z., Zheng S.B., Feng C.H., Zhang H.X., Wang L.; The plasma current profile during current reversal in AC operation of the CT-6B tokamak; Nucl. Fusion; 40 (2000) 2023.

[5]  Jagielske J., Khanna A.S., Yang S.Z.; Effect of chromium nitride coating on the corrosion and wear resistance of stainless steel; Appl. Surf. Sci.; 156 (2000) 47.

[6]  Shao F.Q., Wang L., Zheng S.B.; Numerical simulation of electron cyclotron wave current startup in tokamaks; J. Phys. Soc. Japan; 69 (2000) 441

[7]  Shi D.X., Ma L.P., Xie S.S., and Pang S.J.; Nanometer-scale data storage on 3-phenyl-1-ureidonitrile thin film using scanning tunneling microscopy; J. Vac. Sci. Technol. B; 18 (2000) 1187.

[8]  Shi D.X., Song Y.L., Zhang H.X., Jiang P., He S.T., Xie S.S., Pang S.J., and Gao H.J.; Direct demonstration of structural transition for molecular recording with scanning tunneling microscopy; Appl. Phys. Lett.; 77 (2000) 3203.

[9]  Wang L.; Electricsl parameters of a conducting vacuum vessel with a rectangular cross section; Fusion Technol.; 37 (2000) 198.

[10]  Xie B.S., He K.F., and Chen Y.P.; Dust-acoustic shock waves in the sheath of dusty plasmas; Chin. Phys.; 9 (2000) 922.

[11]  Xu N., Wang L. and Hu X.W.; Xu, Wang, and Hu reply; Phys. Rev. Lett.; 85 (2000) 4838.

[12]  Xu N., Wang L., Hu X.W.; Bremsstrahlung of nitrogen and noble gases in single-bubble sonoluminescence; Phys. Rev. E; 61 (2000) 2611.

[13]  Yang H.Q., Zhu C.X., Gao J.N., Xue Z.Q., Pang S.J.; Reply to‘comment on“formation and atomic structures of double-layer steps on Si(100) surfaces studied by scanning tunneling microscope”by H.J.W. Zandvliet’; Surf. Sci.; 449 (2000) L265.

[14]  Yang H.Q., Zhu C.X., Xue Z.Q., Pang S.J.; Atomic structures of kinks at double-layer steps on Si(100) surface; Surf. Sci.; 448 (2000) 225.

[15]  Yao X.Z., Jiang D.M., Feng C.H., Yang X.Z., Zhang H.X., Qi X.Z., Jiang D.Y., Li Z.L., Wang L., Zheng S.B.; Electron cyclotron wave current startup for ohmic discharges on the CT-6B tokamak; IEEE Trans. on Plasma Sci.; 28 (2000) 223.

[16]  Zhang Y.P., Gu Y.S., Chang X.R., Tian Z.Z., Shi D.X., Zhang X.F., Yuan L.; Carbon nitride films deposited on Pt substrates by microwave plasma chemical vapor deposition; J. Univ. Sci. Technol. Beijing; 7 (2000) 42.

[17]  Zhang Y.P., Gu Y.S., Chang X.R., Tian Z.Z., Shi D.X., Zhang X.F., Yuan L.; Crystalline carbon nitride thin films deposited by microwave plasma chemical vapor depostion; Chin. Phys.; 9 (2000) 545.

[18]  Zhang Y.P., Gu Y.S., Zhang X.R., Tian Z.Z., Shi D.X., Zhang X.F.; On the structure and composition of crystalline carbon nitride films synthesized by microwave plasma chemical vapor deposition; Mater. Sci. Eng. B; 78 (2000) 11.

[19]  Zhang Y.P., Gu Y.S., Zhang X.R., Tian Z.Z., Shi D.X., Zhang X.F.; On the structure and composition of crystalline carbon nitride films synthesized by microwave plasma chemical vapor deposition; Mater. Sci. Eng. B; 78 (2000) 11.

[20]  Zhang Y.P., Gu Y.S., Zhang X.R., Tian Z.Z., Shi D.X., Zhang X.F., Yuan L.; Characterization of carbon nitride thin films deposited by microwave plasma chemical vapor deposition; Surf. Coat. Technol.; 127 (2000) 260.

[21]  Zhao Y.F., Yang H.Q., Gao J.N., Xue Z.Q. and Pang S.J.; Reply to “comment on ‘local dimer-adatom stacking fault structures from 3×3 to 13×13 along Si(111)-7×7 domain boundaries'”; Phys. Rev. B; 61 (2000) 1.

[22]  Zhao Y.F.,Yang H.Q., Pang S.J.; Si(100)-c(4×8) reconstruction formed in a highly non-equilibrium process.; Phys. Rev. B; 62 (2000) R7715.

[23]  Zhao Y.F., Zhang Z.H., Yang H.Q., Xue Z.Q. and Pang S.J.; Structure analysis of Si(111)-7×7 domain boundaries with takayanaki Cores; J. Vac. Sci. Technol. A; 18 (2000) 320.

[24]  Zheng S.B., Yang X.Z., Jiang D.M., Yao X.Z., Feng C.H., Jiang D.Y., Fang T.Z., Wang L.; Electrode discharge assisted electron cyclotron wave current startup on the CT-6B tokamak; Nucl. Fusion; 40 (2000) 155.

Crystallography

[1]  Cao Y.G., Chen X.L., Lan Y.C., Li J.Y., Xu Y.P., Xu T., Liang J.K.; Fabrication of nano-sized AlGaN alloy from dry milling and thermal annealing process; J. Alloys Compounds; 309 (2000) L13.

[2]  Cao Y.G., Chen X.L., Lan Y.C., Li J.Y., Xu Y.P., Xu T., Liang J.K.; Synthesis and photoluminescence characteristics of AlN nanocrystalline solids; Appl. Phys. A; 71 (2000) 351.

[3]  Cao Y.G., Chen X.L., Lan Y.C., Li J.Y., Xu Y.P., Xu T., Liu Q.L., Liang J.K.; Blue emission and raman scattering spectrum from AlN nanocrystalline powders; J. Cryst. Growth; 213 (2000) 198.

[4]  Cao Y.G., Chen X.L., Lan Y.C., Liang J.K., Xu Y.P., Xu T., Li J.Y., Liu Q.L., Lu K.Q.; Red emission from GaN nanocrystalline solids; Mod. Phys. Lett. B; 14 (2000) 583.

[5]  Cao Y.G., Chen X.L., Lan Y.C., Xu Y.P., Xu T., Li J.Y., Liu Q.L., Lu K.Q., Liang J.K.; A new method for synthesis of amorphous carbon nitride powders; Appl. Phys. A; 71 (2000) 465.

[6]  Cao Y.G., Chen X.L., Lan Y.C., Xu Y.P., Xu T., Liang J.K.; Synthesis, Raman scattering and infrared spectra of a new condensed form of GaN nanophase material; J. Mater. Res.; 15 (2000) 267.

[7]  Cao Y.G., Chen X.L., Li J.Y., Lan Y.C., Liang J.K.; Observation of quantum-confinement effect with GaN nanoparticles synthesized through a new gas reaction route; Appl. Phys. A; 71 (2000) 229.

[8]  Chang B.H., Liu Z.Q., Sun L.F., Tang D.S., Zhou W.Y., Wang G., Qian L.X., Xie S.S., Fen J.H., Wan M.X.; Conductivity and magnetic susceptibility of nanotube/polypyrrole nanocomposites; J. Low Temp. Phys.; 119 (2000) 41.

[9]  Chen K.Q., Wang X.H., Gu B.Y.; Characteristics of localized acoustic modes in an N-layer-based superlattice with defect layers; Mod. Phys. Lett. B; 14 (2000) 571.

[10]  Chen K.Q., Wang X.H., Gu B.Y.; Effect of the coupling between the normal and lateral degrees of freedom on localized electronic states in SL's with structural defects; Int. J. Mod. Phys. B; 14 (2000) 2587.

[11]  Chen K.Q., Wang X.H., Gu B.Y.; Localized folded acoustic phonon modes in coupled superlattices with structural defects; Phys. Rev. B; 61 (2000) 12075.

[12]  Chen K.Q., Wang X.H., Gu B.Y.; Localized interface optical-phonon modes in supperlattice with structural defects; Phys. Rev. B; 62 (2000) 9919.

[13]  Chen W.C., Chen N.F., Ding B.Z., Xue D.T.; Reseach progress on space materials science; Chin. J. Space Science; 20 (2000) 91.

[14]  Chen X.L., Cao Y.G., Lan Y.C., Xu Y.P., Xu T., Liang J.K. and Lu K.Q.; Synthesis and structure of nanocrystal-assembled bulk GaN; J. Cryst. Growth; 209 (2000) 208.

[15]  Chen X.L., Li J.Y., Cao Y.G., Lan Y.C., Li H., He M., Wang C.Y., Zhang Z., Qiao Z.Y.; Straight and smooth GaN nanowires; Adv. Mater.; 12 (2000) 1432.

[16]  Chen X.M., Wang Q., Lu K.Q.; Temperature dependence of viscosity of molten lithium niobate; J. Cryst. Growth; 218 (2000) 93.

[17]  Chen Y., Li X., Chen X.L., Liang J.K., Rao G.H., and Liu Q.L.; Phase relation in the system Sm-Co-B; J. Alloys Compounds; 305 (2000) 216.

[18]  Chen Y., Li X., Chen X.L., Liang J.K., Rao G.H., Shen B.G., Liu Q.L., Jin L.P., and Wang M.Z.; Phase relation, crystal structures and magnetic properties of Nd-Co-B borides; Chem. Mater.; 12 (2000) 1240.

[19]  Chen Y., Li X., Chen X.L., Liang J.K., Shen B.G., and Liu Q.L.; Synthesis, structure and magnetic properties of Pr5Co19B6; Phys. Rev. B; 61 (2000) 3502.

[20]  Chen Y., Li X., Liang J.K., Chen X.L., Shen B.G., Rao G.H., and Liu Q.L.; Synthesis and magnetic properties of Nd3Co13-xNixB2 borides; IEEE Trans. Magn.; 36 (2000) 2037.

[21]  Chen Y., Liang J.K., Chen X.L., and Liu Q.L.; Phase relation in the system Gd-Co-B; J. Alloys Compounds; 296 (2000) L1.

[22]  Gu B.Y., Zhang Y., Dong B.Z.; Inversigatios of harmonic generations in aperiodic optical superlattices; J. Appl. Phys.; 87 (2000) 7629.

[23]  Gu B.Y., Zhang Y., Wang X.H.; Electron transport across one-dimensional modulated superlattices in a quantum waveguide in magnetic fields; J. Appl. Phys.; 88 (2000) 300.

[24]  Gu Y.X., Liu Y.D., Hao Q., Fan H.F.; Solving crystal structures from two-wavelength X-ray powder diffraction data -breaking the phase ambiguity in the noncentrosymmetric case; Acta Cryst. A; 56 (2000) 592.

[25]  Han C.Q., Chen X.L., Liang J.K., Liu Q.L., Chen Y., and Rao G.H.; The ternary system Tm2O3-SrO-CuO: Compounds and phase relations; J. Alloys Compounds; 309 (2000) 95.

[26]  Hao Q.; Direct phasing of one-wavelength anomalous scattering data; J. Synchrotron Rad.; 7 (2000) 148.

[27]  Hao Q., Gu Y.X., Zheng C.D. and Fan H.F.; OASIS: a computer program for breaking phase ambiguity in one-wavelength anomalous scattering or single isomorphous substitution (replacement) data; J. Appl. Cryst.; 33 (2000) 980.

[28]  He H.P., Huang X.J., Chen L.Q.; Sr-doped LaInO3 and its possible application in a single layer SOFC; Solid State Lonies.; 130 (2000) 183.

[29]  He M., Chen X.L., Lan Y.C., Li H., and Xu Y.P.; Ab inito structure determination of new compound LiAlB2O5; J. Solid State Chem.; 157 (2000) 341

[30]  Huang F., Liang J.K., Liu Q.L., Chen X.L., and Chen Y.; Structure and magnetic properties of intermetallic compounds (Gd1-xRx)3Fe28Nb (R=Ce, Nd, Sm); J. Phys. D; 33 (2000) 780.

[31]  Huang H., Cen C.H., Perego R.C., Kelder E.M., Chen L., Schoonman J., Weydanz W.J., Nielsen D.W.; Electrochemical characterization of commercial lithium manganese oxide powders; Solid State Lonies.; 127 (2000) 31.

[32]  Huo G.Y., Rao G.H., Qiao Z.Y., Liu Q.L., Chen X.L., Liang J.K., Shen B.G.; Crystal structure and magnetic properties of Gd3(Fe1-x-yCoyTix)29 compounds; J. Phys.: Condens. Mat.; 12 (2000) 1161.

[33]  Lan Y.C., Chen X.L., and Li J.Q.; Structure of Bi2Nd4O9 Monoclinic Phase; J. Solid State Chem.; 153 (2000) 30.

[34]  Lan Y.C., Chen X.L., Cao Y.G., Xu Y.P., Xu T., Li J.Y., Tao Z., Liang J.K.; Morphology of GaN in Ammonia; J. Mater. Sci. Lett.; 19(2000) 2215.

[35]  Lan Y.C., Chen X.L., Che G.C., Cao Y.G., and Tu Q. Y.; Hydrothermal oxidation: a new chemical oxidation method to dope oxygen in La2CuO4+δ; Supercond. Sci. Technol.; 13 (2000) 1415.

[36]  Lan Y.C., Chen X.L., Huang J.K., Che G. C., Liu G. D., Cao Y.G., Xu Y.P., Xu T., and Li J. Y.; Structural and superconducting properties of chemically oxidized La2CuO4+y under hydrothermal conditions; Physica C; 336 (2000) 151.

[37]  Lan Y.C., Chen X.L., Xu Y.P., Cao Y.G., Huang F.; Syntheses and structure of nanocrystalline gallium nitride obtained from ammonothermal method using lithium metal as mineralizator; Mater. Res. Bull.; 35 (2000) 2325.

[38]  Lan Y.C., Men S.Q., Xu X.Y., Lu K.Q.; Experimental study of dielectric constant influence on electrorheological effect; J. Phys. D; 33 (2000) 1239.

[39]  Li G.F., Li H., Mo Y.J., Huang X.J., Chen L.Q.; Surface enhanced resonance Raman spectroscopy of rhodamine 6G adsorbed on silver electrode in lithium batteries; Chem. Phys. Lett.; 330 (2000) 249.

[40]  Li H., Huang X.J. and Chen L.Q., Zhou G.W., Zhang Z., Yu D.P., Mo Y.J., Pei N.; The crystal structural evolution of nano-Si anode during lithium insertion and extraction; Solid State Lonies.; 135 (2000) 181.

[41]  Li H., Mo Y.J., Ning P., Huang X.J., Chen L.Q.; Surface enhanced Raman scattering study on passivating film of Ag electrode in lithium batteries; J. Phys. Chem. B; 104 (2000) 8477.

[42]  Li H., Zhu G.Y., Huang X.J. and Chen L.Q.; Synthesis and electrochemical performance of dendrite- like nanosized SnSb alloy prepared by co-precipitation in alcohol solution at low temperature; J. Mater. Chem. ; 10 (2000) 693.

[43]  Li J.Y., Chen X.L., Cao Y.G., Qiao Z.Y., Lan Y.C.; Raman scattering spectrum of GaN straight nanowires; Appl. Phys. A; 71 (2000) 345.

[44]  Li J.Y., Chen X.L., Qiao Z.Y., Cao Y.G., He M., Xu T.; Synthesis of aligned GaN nanoiwre quasi-arrays; Appl. Phys. A; 71 (2000) 349.

[45]  Li J.Y., Chen X.L., Qiao Z.Y., Cao Y.G., Lan Y.C.; Formation of GaN nanorods by a sublimation method; J. Cryst. Growth; 213 (2000) 408.

[46]  Li J.Y., Qiao Z.Y., Chen X.L., Cao Y.G., Lan Y.C. and Wang C.Y.; Morphologies of GaN one-dimensional materials; Appl. Phys. A; 71 (2000) 587.

[47]  Li J.Y., Qiao Z.Y., Chen X.L., Chen L., Cao Y.G., He M., Li H., Cao Z.M., Zhang Z.; Sythesis of b-Ga2O3 nanorods; J. Alloy Comp.; 306 (2000) 300.

[48]  Li J.Z., Huang X.J., and Chen L.Q.; X-ray diffraction and vibrational spectroscopic studies on PAN-LiTFSI polymer electrolytes; J. Electrochem. Soc.; 147 (2000) 2653.

[49]  Li Z.Y., Lin L.L., Gu B.Y., Yang G.Z.; Photonic band gaps in anisotropic photonic crystals; Physica B; 279 (2000) 159.

[50]  Liu H., Guo D.C., Lu F.P., Wu Z.H., Ding Y.F., Lu K.Q.; Bond-lengths of the atomic nearest-neighbor and next-nearest-neighbor in A(1-x)B(X)C(1-y)D(Y) III-V solid solutions; Comput. Mater. Sci.; 18 (2000) 339.

[51]  Liu J., Dong B.Z., Gu B.Y.; Polarization-selective diffractive phase elements for implementing polarization mode selecting color demultiplexing, and spatial focusing simultaneously; Optik; 111 (2000) 49.

[52]  Liu J., Gu B.Y.; Laser beam shaping with polarization-selective diffractive phase elements; Appl. Opt.; 39 (2000) 3089.

[53]  Liu Q.L., Liang J.K., Huang F., Chen Y., Rao G.H., Chen X.L., a nd Shen B.G.; Structure and magnetic properties of intermetallic compounds (La1-xRx)2Co16Ti (R=Sm, Nd); J. Alloys Compounds; 297 (2000) 33.

[54]  Liu Q.L., Nan J.J., Liang J.K., Huang F., Chen Y., Rao G.H., and Chen X.L.; Subsolidus phase relations in Co-rich region of the La-Co-Ti system; J. Alloys Compounds; 307 (2000) 212.

[55]  Liu Q.L., Rao G.H., and Liang J.K.; Structure and magnetic properties of the intermetallic compounds Gd3Fe29-xTax; J. Phys.: Condens. Mat.; 12 (2000) 5473.

[56]  Liu Q.L., Rao G.H., Liang J.K., and Shen B.G.; Structure and magnetic properties of Gd3Fe28.2W0.8; J. Appl. Phys.; 88 (2000) 4241.

[57]  Liu Y.C. and Chen W.C.; Influence of the gravity on surface shape during the crystal growth of LiCAF; Sci. China Ser. A; 43 (2000) 430.

[58]  Liu Y.C., Chen W.C., Ge P.W.; Computational analysis of the vertical bridgman growth of Te doped GaSb under microgravity; Chin. Phys. Lett.; 17 (2000) 775.

[59]  Liu Y.C., Chen W.C., Ge P.W., Huo C.R.; Computational analysis of the vertical Bridgman growth of Te doped GaSb under microgravity; Chin. Phys.; 7 (2000) 775.

[60]  Liu Y.Q., Hu W.P., Wang X.B., Long C.F., Zhang J.B., Zhu D.B., Tang D.S., Xie S.S.; Carbon Nanorods; Chem. Phys. Lett.; 331 (2000) 31.

[61]  Liu Z.Q., Pan Z.W., Sun L.F., Tang D.S., Zhou W.Y., Wang G., Qian L.X., Xie S.S.; Synthesis of silicon nanowires using AuPd nanoparticles catalyst on silicon substrate; J. Phys. Chem. Solids; 61 (2000) 1171.

[62]  Liu Z.Q., Sun L.F., Tang D.S., Zhou W.Y., Li Y.B., Zou X.P., Wang G.; AuPd catalytic nanoparticle size effect on the formation of amorphous silicon nanowires; Chin. Phys.; 9 (2000) 774.

[63]  Lo M., Meyrueis P., Gu B.Y., Dong B.Z.; Non-periodic diffractive phase element for wavelength-division (de) multiplexing; Opt. Commun.; 173 (2000) 217.

[64]  Mai Z.H., Liu B.T., Li J.H., Z, Hao, Xu B., Zhao B.R., Giannini C., Serinelli S.A. and Tapfer L.; Study of the microstructures of Pb (Zrx Ti1-x) /Yba2Cu3O7-d heterostructural films; Supercond. Sci. Technol.; 13 (2000) 598.

[65]  Medvedeva I.V., Barner K., Rao G.H., Hamad N., Bersenev Y.S., and Sun J.R.; Pressure dependences of the metal-insulator transition temperature of La0.7Ca0.3Mn1-x(Fe/Ge)xO3 perovskites; Physica B; 292 (2000) 250.

[66]  Ockwell D.M., Hough M.A., Grossmann J.G., Hasnain S.S. and Hao Q.; Implementation of cluster analysis for ab initio phasing using the molecular envelope from solution X-ray scattering; Acta Cryst. D; 56 (2000) 1002.

[67]  Pan Z.W., Chang B.H., Sun L.F., Qian L.X., Liu Z.Q., Tang D.S., Wang G., Xie S.S.; Preparation of very long and open aligned carbon nanotubes; Sci. China Ser. A; 43 (2000) 210.

[68]  Pan Z.W., Lai H.L., Au F.C.K., Duan X.F., Zhou W.Y., Shi W.S., Wang N., Lee C.S., Wong N.B., Lee S.T., Xie S.S.; Oriented silicon carbide nanowires: Synthesis and field emission properties; Adv. Mater.; 12 (2000) 1186.

[69]  Rao G.H.; Correlation between crystal structure and magnetic properties of Gd5(SixGe1-x)4 compounds; J. Phys.: Condens. Mat.; 12 (2000) L93.

[70]  Song Y.T., Zhang D.F. , Wu X., Zhou T., Wang X.M., Ni D.Q.; Preparation and characterization of pure and Ce4+-doped potassium lithium niobate single crystals; J. Mater. Sci. Lett.; 19 (2000) 2025.

[71]  Sun L.F., Xie S.S., Liu W., Zhou W.Y., Liu Z.Q., Tang D.S., Wang G., Qian L.X.; Creating the narrowest carbon nanotubes; Nature; 403 (2000) 384.

[72]  Sun L.F., Xie S.S., Mao J.M., Pan Z.W., Chang B.H., Zhou W.Y., Wang G., Qian L.X.; Effects of temperature oscillations on the growth of carbon nanotubes by chemical vapor deposition; Appl. Phys. Lett.; 76 (2000) 828.

[73]  Tang D.S., Bao Z.X., Wang L.J., Chen L.C., Sun L.F., Liu Z.Q., Zhou W.Y., Xie S.S.; The electrical behavior of carbon nanotubes under high pressure; J. Phys.. Chem. Solids; 61 (2000) 1175.

[74]  Tang D.S., Chen L.C., Wang L.J., Sun L.F., Liu Z.Q., Wang G., Zhou W.Y., Xie S.S.; Behavior of carbon nanotubes under high pressure and high temperature; J. Mater. Res.; 15 (2000) 560.

[75]  Tang D.S., Xie S.S., Liu W., Chang B.H., Sun L.F., Liu Z.Q., Wang G., Zhou W.Y.; Evidence for an open-ended nanotube growth model in arc discharge; Carbon; 38 (2000) 475.

[76]  Wang Q., Chen X.M., Li C.X., Lu K.Q.; Electrical resistivity of molten indium-antimony alloys; J. Appl. Phys.; 87 (2000) 4623.

[77]  Wang Q., Chen X.M., Lu K.Q.; Electrical resistivity and absolute thermopower of liquid GaSb and InSb alloys; J. Phys.: Condens. Mat.; 12 (2000) 5201.

[78]  Wang S.B., Liang H., Zhu P.R.; Characteristics of CrSi2 and Cr(Ni)Si2 synthesis in MEVVA ion source implantation and post-annealing processes; Appl. Surf. Sci.; 153 (2000) 108.

[79]  Wang S.B., Liang H., Zhu P.R.; Epitaxial growth of alloy Cr(Ni)Si2 by metal vapour vacuum arc ion source implantation and post-annealing; Vacuum; 56 (2000) 95.

[80]  Wang S.B., Liang H., Zhu P.R.; Preferential growth of C54TiSi2 by metal vapor vacuum arc ion source implantation and post-annealing; Surf. Coat. Technol.; 131 (2000) 84.

[81]  Wang S.B., Liang H., Zhu P.R.; The growth and thermal stability of Ti-silicides obtained by metal vapor vacuum arc ion source implantation; Phys. status solidi. A; 179 (2000) 95.

[82]  Wang S.B., Zhu P.R.; Effects of forming cavities on the lattice quality and carrier profile in the B doped silicon; Mater. Sci. Eng. B; 72 (2000) 142.

[83]  Wang S.B., Zhu P.R.; Structural and electrical properties of CVD diamond films doped by N+ implantation; Mater. Sci. Eng. B; 76 (2000) 83.

[84]  Wang S.B., Zhu P.R.; The formation of Ti-silicides by a metal vapour vacuum arc ion source implantation and annealing process; Vacuum; 59 (2000) 919.

[85]  Wang S.B., Zhu P.R., Wang W.J.; The microstructure and tribological properties of copper surfaces implanted with carbon ions; Surf. Coat. Technol.; 123 (2000) 173.

[86]  Wang S.M., Huang X.J. and Chen L.Q.; Activation of LiMnBO glass as cathode material for lithium-ion batteries; J. Mater. Chem.; 10 (2000) 1465.

[87]  Wang S.M., Huang X.J., Wang Z.X., Chen L.Q.; Crystallization mechanism in amorphous material of 0.5LiMnO2 -0.5B2O3 ; J. Mater. Sci.; 35 (2000) 1695.

[88]  Wang W.Y., Yan X.L., Wu X., Zhang Z.G., Zhou J.F.; Study of single crystal of Tm3+:CaYAlO4 by the floating-zone method; J. Cryst. Growth; 219 (2000) 56.

[89]  Wu L.J., Chen W.C., Li C.R., and Liang J.K.; Role of Ba2+ ion in the crystal Growth of Sr(NO3)2; Chin. Phys. Lett.; 17 (2000) 139.

[90]  Wu L.J., Chen W.C., Li C.R., Ma W.Y., Liang J.K.; Crystallization of PbxSr1-x(NO3)2 solid solutions from aqueous solutions; Cryst. Res. Technol; 35 (2000) 601.

[91]  Xie S.S., Li W.Z., Pan Z.W., Chang B.H., Sun L.F.; Carbon nanotube arrays; Mater. Sci. Eng. A; 286 (2000) 11.

[92]  Xie S.S., Li W.Z., Pan Z.W., Chang B.H., Sun L.F.; Mechanical and physical properties on carbon nanotube; J. Phys.. Chem. Solids; 61 (2000) 1153.

[93]  Xiong G. and Mai Z.H.; Preparation and magnetic properties of Ba2Co2Fe28O46 nanocrystals; J. Appl. Phys.; 88 (2000) 519.

[94]  Xu H.Y., Kang J., Yu W.X., Mai Z.H.; Tunnel current, conductance and magnetoresistance in double-barrier magnetic tunnel junctions; Thin solid films; 375 (2000) 210.

[95]  Xu H.Y., Yu W.X., Mai Z.H. and Kang J.; Asymmetrical spin-polarized tunneling and magnetoresistance in ferromagnet/insulator/insulator/ferromagnet junctions; J. Appl. Phys.; 87 (2000) 2386.

[96]  Xu M., Chai C.L., Luo G.M., Yang T., Mai Z.H., Lai W.Y. ; Structural study of Ni80Fe20/Cu multilayers by X-ray diffraction; Thin Solid Films; 375 (2000) 205.

[97]  Xu M., Lao G.M., Chai C.L., Mai Z.H., Lai W.Y., Wu Z.H., and Wang D.W.; Effect of annealing on the microstructure of Ni80 Fe20/Cu multilayers; J. Cryst. Growth; 212 (2000) 291.

[98]  Xu M., Luo G.M., Yang T., Yang N., Chai C.L., Wu Z.H., Wang J., Lai W.Y. and Mai Z.H.; Comparative investigation on the microstructures of Ni80Fe20/Cu and Ni80Fe20/Fe50Mn50 superlattices by X-ray diffraction; Phys. status solidi. A; 178 (2000) R5.

[99]  Xu M., Mai Z.H., Xu H.B., and Gong S.K.; Origin of spin-valve magnetoresistance: interface or bulk spin-dependent scattering?; Phys. Low-Dimens. Str.; 11/12 (2000) 51.

[100] Xu M., Yang T., Yu W.X., Yang N., Liu C.X., Mai Z.H., Lai W.Y. and Tao K.; Accurate determination of film thickness by low-angle X-ray reflection; Chin. Phys.; 9 (2000) 833.

[101] Xu S.J., and Wang B., Men S.Q, Lu K.Q.; New dispersed phase of electrorheological fluids: TiO2 coating graphite particles; J. Mater. Sci. Technol.; 16 (2000) 529.

[102] Yan X.L., Wu X., Zhou J.F., Zhang Z.G., Wang X.M., Fu P.M., Jiang Y.D., Hu J., Qiu J.L.; Growth of Tm: Ho:YVO4 laser single crystals by the floating zone method; J. Cryst. Growth; 212 (2000) 204.

[103] Yan X.L., Wu X., Zhou J.F., Zhang Z.H., Wang J.G.; Growth of laser single-crystals Er:YVO4 by floating zone method; J. Cryst. Growth; 220 (2000) 543.

[104] Yan X.Z., Zhao H.W., Hu C.R.; Theory of electron transport in normal metal/superconductor junctions; Phys. Rev. B; 61 (2000) 14759.

[105] Yu W.X., Cui S.F., Li J.H., Wu L.S., Mai Z.H., Liu B.T., Zhao B.R., Zheng W.L., Jia Q.J.; Study of the microstructures and the strain of PbZr0.53Ti0.47O3/La1.85Sr0.15CuO4 integrated films; Physica C; 337 (2000) 39.

[106] Yu W.X., Cui S.F., Li J.H., Wu L.S., Mai Z.H., Liu B.T., Zhao B.R., Zheng W.L. and Jia Q.J.; Surface roughness exponent and non-designed cap layer in PbZr0.53Ti0.47O3/La1.85Sr0.15CuO4 bilayers; J. Phys. D; 33 (2000) 2363.

[107] Zhang Y., Yang G.Z., Gu B.Y., Dong B.Z.; Optical wavelet-based feature extraction of image with use of computer-generated hologram; Optik; 111 (2000) 45.

[108] Zhao Y.N., Shi Z., Ding S.H, Bai N., Liu W., Zou Y.C., Zhu G.S., Zhang P., Mai Z.H. and Pang W.Q.; Synthesis and structure of 12-member ring crown-shaped oxovanadium borophosphate polyanions: [H3NC2H4NH2C2H4NH2C2H4NH3]4H-[MCVO]12{O3POB(O)2OPO3}6 nH2O; Chem. Mater.; 12 (2000) 2550.

[109] Zhou W.Y., Xie S.S., Lu L., Liu E.S., Peng Z.; Electrical transport property of polymerized KC60 and RbC60; J. Phys.. Chem. Solids; 61 (2000) 1159.

[110] Zhou W.Y., Xie S.S., Qian S.F., Wang G., Qian L.X., Sun L.F., Tang D.S., Liu Z.Q.; Photothermal deflection spectra of crystalline C60Sx and RbC60; J. Phys.. Chem. Solids; 61 (2000) 1165.

[111] Zhu Z.H., Ge P.W. and Xu Z.Y.; Influence of speed crystal dimension on crystal growth from solution under microgravity; Chin. Phys.; 9 (2000) 321.

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