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2001

Superconductivity

[1] Cong W.Z., Zhao B.R., Cai C., Lin Y.; Coherent Nanoscale Islands on La0.5Ca0.5MnO3 and the Enhancement of Magnetresistance; Appl. Phys. Lett.; 79 (2001)827.

[2] Deng H., Wang W.Q., Zhou Y.R., Wang X.H., Hua P.W., Dong C., Chen H., Li Y.N., Hua L., Yuan G.S.; The property of (Bi,Pb)-2223 Ag-AgCu sheathed superconductors with various sheath assemblages; Physica C; 351 (2001)125.

[3] Guo S.Q., Liu M.L., Zheng D.N. and Zhao B.R.; Formula for Calculating the Error of Superconducting Magnetization Curve; Chin. Phys.; 10 (2001)658.

[4] Hu W.F., Li L., Zhao X.J., Liu W., Chen Y.F., Wang T.S., Qiu X.G.; Pits on the surfaces of epitaxial c-axis YBa2Cu3O7-δ thin films grown on vicinal SrTiO3 substrates; Chin. Phys. Lett.; 18 (2001)91.

[5]Hu W.F., Wang T.S., Shi D.X., Zhao X.J., Peng W., Lei C., Tao H.J., Chen Y.F., Li L.; Influence of tilting of SrTiO3 substrates on the morphology and supercon-ductivity of YBa2Cu3O7 thin films; J. Cryst. Growth; 231 (2001)129.

[6] Hu W.F., Zhao X.J., Peng W., Wang T.S., Liu W., Li L., Lei C., Chen Y.F., Li Lin; Control of the growth mode of epitaxial c-axis YBa2Cu3O7 thin films by vicinal (001) SrTiO3 substrates; J. Cryst. Growth; 231 (2001)493.

[7] Jin H., Wen H.H., Li S.L., Zhao Z.W., Ni Y.M., Ren Z.A., Che G.C., Yang H.P., Liu Z.Y., Zheng D.N., Zhao Z.X.; Upper critical field and the irreversibility line determined by transport measurement of the new superconductor MgB2; Chin. Phys. Lett.; 18 (2001)823.

[8] Lang P.L., He Y.Z., Zhou F., Zheng D.N., Zhao Z.X.; Further development of a novel pulling device for crystal growth; Review of Scientific Instruments; 72 (2001)1585.

[9] Li H.C., Wang R.L., Wei B.; Error analysis for measurements of microwave surface resistance of high-temperature superconductors by dielectric resonator method; Acta Physica Sinca; 50 (2001)938.

[10]Li J.Q., Dong C., Liu L.H., Ni Y.M.; Reentrant charge-ordering transition and phase separation in the layered perovskite La2-2xSr1+2xMn2O7; Phys. Rev. B; 64 (2001)174413.

[11] Li J.Q., Jin C.Q., Zhao H.B.; Structural and physical properties of double-layered manganites LaCa2Mn2O7; Phys. Rev. B; 64 (2001)20405.

[12] Li J.Q.; Structural properties of the perovskite manganites; J. Appl. Phys.; 90 (2001)637.

[13] Li J.Q.; Structure features of MgB2 superconductor; Chin. Phys. Lett.; 18 (2001)680.

[14]Li S.L., Wen H.H., Zhao Z.W., Ni Y.M., Ren Z.A., Che G.C., Yang H.P., Liu Z.Y., Zhao Z.X.; Linear lower critical field of MgB2 superconductor; Phys. Rev. B; 64(2001)094522.

[15] Li Y., S.Kaviraj, A. Berenov, G.K. Perkins, T. Driscoll, A.D. Caplin, Cao C.H., Ma Q.Z., Y.Haga, H.Medo, Zhao Z.X.; Enhancement of critical current density of (Pb, Sn)-doped Bi-2212 superconductor at high temperature; Physica C; 355 (2001)51

[16] Li Y., Zhao Z.X.; Stress-field Pinning induced by the lattice mismatch in 123 phase; Physica C; 351 (2001)1.

[17] Li Z.Z., Xuan Y., Tao H.J., Ren Z.A., Che G.C., Zhao B.R., Zhao Z.X.; Josephson effects in MgB2/Nb point-contacts; Supercond. Sci Technol.; 14 (2001)944.

[18] Lin Y., Gong W.Z., Cai C., Hao Z., Xu B. and Zhao B.R.; Effect of the Charge Distribution at the Interface on the Properties of PZT/SiO2/Si Heterostructure; Ferroelectrics; 252 (2001)321.

[19] Lin Y., Liu B.T., Hao Z., Gong W.Z., Cai C., Xu B., Zhao B.R.; Fabrication and Characteristics of Ag/Pb(Zr0.53Ti0.47)O/Ultrathin SiO2/Si and Ag/Pb(Zr0.53Ti0.47)O3 /YBa2Cu3O7-δSystems; Ferroelectrics; 252 (2001)329.

[20] Liu G.D., Gao M., Che G.C., Zhao Z.X., Chen L., Dong C., Wu F., Ni Y.M., Chen H. and Peng L.M.; Superconducting phases, charge ordering and possible correlation between them in La2CuO4.12; Supercond. Sci. Technol.; 14 (2001)398.

[21] Luo P.S., Dong X.L., Zhao B.R., Zhao Z.X., Gao M., Peng L.M., Dong Z.F., Ni Y.M., Wu F., Xu B., Zhao L.H.; The Role Excess Cu on La2CuO4 System; Physica C; 350 (2001)127.

[22] Ren Z.A., Che G.C., Jia S.L., Chen H., Ni Y.M., Zhao Z.X.; Effect of Mg and C contents In MgCNi3 and Structure & superconductivity of MgCNi3-xCox; Science in China: A; 44 (2001)1205.

[23] Ren Z.A., Che G.C., Xiong H., Li K.Q., Yao Y.S., Zheng D.N., Ni Y.M. Jia S.L., Chen H., Dong C., Shen J.L., Zhao Z.X.; Coexistence of magnetism and superconductivity in a new Fe-containing cuprate superconductor (Fe0.5Cu0.5)SrBaYCuO7.20; Solid State Commun.; 119 (2001)579.

[24]Ren Z.A., Che G.C., Zhao Z.X., Chen H., Dong C., Ni Y.M., Jia S.L., Wen H.H.; Superconducting properties of MgB2 prepared by high and ambient pressur; Chin. Phys. Lett.; 18 (2001)589.

[25] Sun Y.P., Song W.H., Dai J.M., Wu X.C., Wang K.Y., Xiao H., Du J.J., Wen H.H., Zhao Z.X.; Preparation and characterization of the new superconductor MgB2; Chin. Phys. Lett.; 18 (2001)587.

[26] Tao H.J., Li S.X., Xuan Y., Zhao B.R., Zhao Z.X.; Tunneling Observation of the Coexistence of Two Distinct Gaps in Bi2Sr2CaCu2O8+δ; Physica C; 364 (2001)423.

[27] Tian Y.J., Yu D.L., He J.L., Xiao F.R., Wang T.S., Li D.C., Li L., Zheng G., O. Yanagisawa; Experimental observation of local heteroepitaxy between cubic-C3N4 and Ti2N in CNx/TiNy bilayers prepared by ion beam sputtering; J. Cryst. Growth; 225 (2001)67.

[28] Wang T.S., Yu D.L., Tian Y.J., Xiao F.R., He J.L., Li D.C., Wang W.K., Li L.; Cubic-C3N4 nanoparticles synthesized in CNx/TiNx multilayer films; Chem. Phys. Lett.; 334 (2001)7.

[29] Wen H.H., Li S.L., Chen G.H., Ling X.S.; Vortex-slush state in YBa2Cu3O7-d thin films; Phys. Rev. B; 64(2001)054507.

[30] Wen H.H., Li S.L., Zhao Z.W., Jin H., Ni Y.M., Kang W.N., Hyeong-Jin Kim, Eum-Mi Choi, and Sung-lk Lee; Magnetic relaxation and critical current density of MgB2 thin films; Phys. Rev. B; 64(2001)134505.

[31] Wen H.H., Li S.L., Zhao Z.W., Jin H., Ni Y.M., Ren Z.A., Che G.C., Zhao Z.X.; Flux dynamics and vortex phase diagram of the new superconductor MgB2; Physica C; 363(2001)170.

[32] Wen H.H., Li S.L., Zhao Z.W., Liu Z.Y., Zhao Z.X.; Revisit the electronic phase diagram: macroscopic phase separation in overdoped high temperature superconductors; Physica C; 364-365(2001)558.

[33] Wen H.H., Li S.L., Zhao Z.W., Ni Y.M., Ren Z.A., Che G.C., Yang H.P., Liu Z.Y., Zhao Z.X.; Strong quantum Fluctuation of Vortices in bulk samples of the new superconductor MgB2; Chin. Phys. Lett.; 18(2001)816.

[34] Wu P.J., Zheng D.N., Chen L., Liu W., Wu F., Chen H., Zhao Z.X.; Preparation of highly crystalline a-axis-oriented YBa2Cu3O7-d superconducting films by a self-template technique; Supercond. Sci Technol.; 14 (2001)229.

[35] Xiong H., Che G.C., Yao Y.S., Ni Y.M. Liu Z.X., Jia S.L., Dong C., Zhao Z.X.; Superconductivity of (R0.4Pr0.6)0.5Ca0.5Ba2Cu3O7-d ( R=La, Pr, Nd, Sm Eu, Gd and Y) prepared under high pressure; Chin. Phys. Lett.; 18 (2001)684.

[36] Xiong H., Che G.C., Yao Y.S., Ni Y.M., Dong C. Jia S.L.; High pressure synthesis of Ca doped (R, Pr)-123 superconductors; Acta Physica Sinica; 50 (2001)1783.

[37] Xuan Yi, Li Z.Z., Tao H.J., Ren Z.A., Che G.C., Zhao B.R., Zhao Z.X.; Josephson effect in MgB2: Large IcRN product and superconducting energy gap; Chin. Phys. Lett; 18 (2001)1254.

[38] Yang H.P., Wen H.H., Zhao Z.W., Li S.L.; Possible superconductivity at 37K in Graphite-Sulphur composite; Chin. Phys. Lett.; 18(2001)1648.

[39] Yu D.L., Tian Y.J., He J.L., Xiao F.R., Wang T.S., Li D.C., Li L., Zheng G., O. Yanagisawa; Preparation of CNx/TiNy multilayers by ion beam sputtering; J. Cryst. Growth; 223 (2001)303.

[40] Zhang Y.Z., R. Deltore, Zhao Z.X.; Reply; Phys. Rev. Lett.; 87 (2001)209704.

[41] Zhao B.R., Dong X.L., Luo P.S., Gao M., Peng L.M., Zhao Z.X., K.Watanabe, Ni Y.M., Xu B.; New slectric features in Cu-rich La2CuO4+δ System; Physica C; 364-365 (2001)446.

[42] Zhao Z.W., Wen H.H., Li S.L., Ni Y.M., Ren Z.A., Che G.C., Yang H.P., Liu Z.Y., Zhao Z.X.; Weak quantum flux creep and strong pinning in the new superconductor MgB2; Chin. Phys.; 10 (2001)340.

[43] Zhu B.Y., L.Van Look, V.V. Moshchalkov, Zhao B.R., Zhao Z.X.; Vortex dynamics in regular arrays of asymmetric pinning centers,; Phys. Rev. B; 64 (2001)012504.

[44] Zhu B.Y., Liu M., Xing D.Y., Zhao B.R., Zhao Z.X.; Moving votex crystalinduced by the commensurabilit effect in a superconductor with periodic pinning arra; Physica C; 361 (2001)107.

[45]  李林; 高温超导薄膜无源微波器件的应用; 《物理》; 30 (2001)392.

[46]  李世亮, 闻海虎; 高温超导体的“尖峰效应”; Physics; 30 (2001)68.

[47]  刘丽华, 董成, 邓冬梅, 陈镇平, 张金仓; Fe掺杂YBCO体系结构变化与团簇效应的正电子实验研究; 《物理学报》; 50 (2001)769.

[48]  任治安, 车广灿, 贾顺莲, 陈红, 倪泳明, 赵忠贤; Mg,C含量和Co替代对MgCNi3的结构和超导电性的影响; 《中国科学》(A辑); 31 (2001)721.

[49]  魏斌, 王瑞兰, 唐义平, 李宏成; 毫米波高温超导介质谐振器; 《微波学报》; 17 (2001)59.

[50]  闻海虎; 高温超导体电子态相图的新认识; Physics; 30 (2001)193.

[51]  熊翰, 姚玉书, 严启伟, 倪泳明, 靳常青, 赵忠贤; 高压高温处理对YNi2B2C晶界效应的影响; 《高压物理学报》; 15 (2001)111.

Magnetism

[1] Ao L., Wang W.H., Chen J.L., Gao S.X., Wu G.H.; Investigation on the intermartensitic transformation in Ni-Mn-Ga single crystals; Acta Physica Sinica; 50 (2001) 793.

[2] B. Pakhomov, Wang C.Y., Zhang X.X., G. H. Wen, Wu G.H.; Magnetization and magnetocaloric effect in magnetic shape memory alloys NiMnGa; IEEE Trans. Magn.; 37 (2001) 2718.

[3]Bao F.Q., Wang J.L., Tang N., wang W.Q., Wu G.H., Yang F.M.; Formation and magnrtic properties of Nd3Fe29-xTix (x=1.3 – 2.0) compounds; J. Alloys & Comp.; 319 (2001)80.

[4] Bao. F.Q., Wang J.L., Tang N., Wang W.Q., Guo Z.Z., Wu G.H. and Yang F.M.; Structural and magnetic properties of YFe12-xTix compounds, (over sea editions); Acta Metallurgica Sinica; 14 (2001)171.

[5] Cai J.W., Lai W.Y.; New features of the coercivity in exchange-coupled Ni81Fe19/CoO bilayers; Chin. Phys. Lett.; 18 (2001)1651.

[6] Chen J.L., Wu G.H., Zhao D.Q., Gao S.X., Zhan W.S., Li Y.X., Qu J.P., Xu G.Z.; Single crystal growth and phase diagram of Tb2Fe17 compound; J. Cryst. Growth; 222 (2001)779.

[7] Chen X., Wang Z.H., Li R.W., Shen B.G., Zhao H.W., Zhan W.S., Chen J.S., Zhang X.X.; Current-dependent positive magnetoresistance in Ga-doped La0.5Ca0.5Mno3; Chin. Phys.; 10 (2001) 751.

[8]  Dai W., Shen B.G., Gao Z.X.; Magnetic refrigeration materials; Progress in Natural Science; 11 (2001) 417.

[9] Fan W.B., Zhang P., D. Suqing, Luo Y., Zhao X.G., Liu W.M.; Dynamical localization of coupled chains in the magnetic and electric fields; Phys. Lett. A; 282 (2001) 72.

[10] Gu B.X., Zhang S.Y., Du Y.W., Zhang H.C., Shen B.G.; Transport properties and magnetoresistance behavior of Nd0.7Pb0.3MnO3 single crystals; J. Mag. Mag. Mat.; 224 (2001) 162.

[11] Gu B.X., Zhang S.Y., Zhang H.C., Shen B.G.; Observation of magnetic polarons in Nd0.7Pb0.3MnO3 single crystals; J. Mater. Sci. Lett.; 20 (2001) 1213.

[12] Guo H.Q., H. Kronmüller, T. Dragon, Cheng Z.H, Shen B.G.; Influence of nanocrystallization on the evolution of domain patterns and the magnetoimpedance effect in amorphous Fe73.5Cu1Nb3Si13.5B9 ribbons; J. Appl. Phys.; 89 (2001) 514.

[13] Han X.F., Terunobu Miyazaki; A Self-consistent Calculation and an Anisotropic Wavelength Cutoff Energy of Spin-wave Spectrum in Magnetic Tunnel Junctions; J. Mater. Sci. Technol.; 17 (2001)197.

[14] He J., Guo H.Q., Shen B.G., He K.Y., Zhang H.W.; Influence of annealing on the magnetic properties and magneto-impedance response in Fe84Zr7B8Cu1 ribbons; Mater. Sci. & Engi. A; 304-306 (2001) 988.

[15] He L.H. et.al.; A structure analysis of superconductor MgB2; Chin. Phys.; 10 (2001) 343.

[16] He L.H., Zhang P.L. and Yan Q.W.; The structure and magnetic properties of La1.2Sr1.8-x CaxMn2O7; Chin. Phys.; 10 (2001) 853.

[17] He L.H., Zhang P.L., Yan Q.W.; The structure and magnetic properties of La2-2x SrCa2xMn2O7(x=0.25-1.00); Chin. Phys. ; 10 (2001) 857.

[18] He Y.Q., Zhou S.Z., Zhang Z.R., Han B.S.; Origin of (105) Reflection of X-ray Diffraction and Quantitative Evaluation of Alignment Degree for Sintered Nd-Fe-B Magnets; Chin. Phys. Lett.; 18 (2001) 1408.

[19] Hu F.X., Shen B.G., Sun J.R., A.B. Pakhomov, Wong C.Y., Zhang X.X., Zhang S.Y., Wang G.J., Cheng Z.H; Large magnetic entropy change in compound LaFe11.44Al1.56 with two magnetic phase transitions; IEEE Trans. Magn.; 37 (2001) 2328.

[20] Hu F.X., Shen B.G., Sun J.R., Cheng Z.H., Rao G.H., Zhang X.X.; Influence of negative lattice expansion and metamagnetic transition on magnetic entropy change in the compound LaFe11.4Si1.6; Appl. Phys. Lett.; 78 (2001) 3675.

[21] Hu F.X., Shen B.G., Sun J.R., Cheng Z.H; Large magnetic entropy change in La(Fe,Co)11.83Al1.17; Phys. Rev. B; 64 (2001) 12409.

[22] Hu F.X., Shen B.G., Sun J.R., Wu G.H.; Large magnetic entropy change in a Heusler alloy Ni52.6Mn23.1Ga24.3 single crystal; Phys. Rev. B; 64 (2001) 132412.

[23] Hu F.X., Sun J.R., Wu G.H., Shen B.G.; Magnetic entropy change in Ni50.1Mn20.7Ga29.6 single crystal; J. Appl. Phys.; 90 (2001) 5216.

[24] Jin Y.H.; Microscopic quantum coherence in magnetic molecular clusters; Chin. Phys. Lett.; 18 (2001) 687.

[25] Li B.H., Zhang H.W., Zhang J., Wang Y., Zhang S.Y.; Calculation of demagnetization curves of nanocomposite Pr2Fe14B/a-Fe magnets using a one-dimension model; Chin. Phys.; 10 (2001) 1054.

[26] Li R.W., Xiong H., Sun J.R., Li Q.A., Wang Z.H., Zhang J., Shen B.G.; Superparamagnetism and transport properties of ultrafine La2/3Ca1/3MnO3 powders; J. Phys.: Condens. Matter; 13 (2001) 141.

[27] Li R.W., Sun J.R., Li Q.A., Cheng Z.H, Wang Z.H., Zhang S.Y., Shen B.G.; Low-temperature magnetization step and its training effects in phase-separated La0.5Ca0.5MnO3; J. Phys.: Condens. Matter; 13 (2001) 1973.

[28] Li W.D., Lai Y.Z., Liang J.Q.; General formalism of interaction of a three-level atom with cavity fields in the kerr-like medium; J. Modern Optics; 48 (2001) 1357.

[29] Li W.D., Zhou X. J., Liang J.Q., Wang Y.Q., Liu W.M.; Phase dynamics of Bose-Einstein condensates; Phys. Lett. A; 285 (2001) 45.

[30]Li W.D., Zhou X.J., Wang Y.Q., Liang J.Q., Liu W.M.; Time evolution of the relative phase in two-component Bose-Einstein condensates with a coupling drive; Phys. Rev. A; 64 (2001) 015602.

[31] Li X., Tang Y.J., Wang H., Zhao H.W., Zhan W.S., Hou J.G.; Anomalous conductivity behavior in C-60 covered Ag granular films; Phys. Status Solidi A – Appl. Res.; 186 (2001)57.

[32]Li X., Wang H., Wang W.N., Tang Y.J., Zhao H.W., Zhan W.S., Hou J.G.; Study of the conductance and structure characteristics of C-60/Sb bilayers; J. Phys. – Condens. Matter; 13 (2001)3987.

[33]Li X.D., Li Z.L., Yan J.S., Hui L., Han B.S., Hu K.S., Wang A.J.; Investigation of Structural Change of Purple Membrane in Storage by Transmission Electron microscope and Atomic Force Microscope; Chin. Sci. Bull.; 46 (2001) 1753.

[34] Li Y.X., Hao Y.M., Wang B.M., Yu H., Gao Y., Xu G.Z., Qu J.P., Wu G.H., Tang C.C., Chen J.L., Zhan W.S.; Growth and magnetostriction of oriented polycrystalline Pr0.15TbxDy0.85-xFe2 (x = 0-0.85); IEEE Trans. Magn.; 37 (2001) 2696.

[35]   Liu Y., Zhou W.M., Qi X., Jiang B.H., Wang W.H., Chen J.L., Wu G.H., Wang J.C., Feng C.D., Xie H.Q.; Magneto-shape-memory effect in Co-Ni single crystals; Appl. Phys. Lett.; 78 (2001)3660.

[36] Liu Z.H., Hu F.X., Wang W.H., Chen J.L., Wu G.H., Gao S.X., Ao L.; Investigation on martensitic transformation and field-induced two-way shape memory effect of Ni-Mn-Ga alloys; Acta Physica Sinica; 50 (2001)233.

[37] Lu Z.Q., Pan G., Lai W.Y.; Planar Hall effect in NiFe/NIMn bilayers; JJ. Appl. Phys.; 90 (2001)1414.

[38] Lu Z.Q., Pan G., Li J., Lai W.Y.; Planar Hall effect and magnetoresistance in spin valve multilayers; J. Appl. Phys.; 89 (2001)7215.

[39] Shen S.Q.; Coulomb interaction and instability of CE-Type structure in half-doped manganites; Phys. Rev. Lett.; 86 (2001)5842.

[40] Sun J.R., Li R.W., Shen B.G.; Spin-state transition in La1-xSmxCoO3 perovskites; J. Appl. Phys.; 89 (2001) 1331.

[41] Sun J.R., Li R.W., Zhang Y.Z., Shen B.G.; Doping effects from Fe and Ge for Mn in La1-xCaxMnO3 (x=0.15-0.6); J. Phys. D: Appl. Phys; 34 (2001) 1333.

[42]Sun J.R., Yeung H.W., Li, H., Zhao K., Chan H.N., Wong H.K.; Oxygen content dependence of the transport property of La2/3Sr1/3CoO3 film; J. Appl. Phys.; 90 (2001) 2831.

[43]Sun Z.G., Zhang H.W., Zhang S.Y., Shen B.G.; Structure and magnetic properties of Nd2(Co, Mn)17 compounds; Physica B; 305 (2001) 127.

[44]Sun Z.G., Zhang H.W., Zhang S.Y., Wang J.Y., Shen B.G.; The magnetocrystalline anisotropy of R2Co17-xMnx (R = Pr, Nd, Tb, Dy and Ho) compounds; IEEE Trans. Magn.; 37 (2001) 2543.

[45]Sun Z.G., Zhang S.Y., Zhang H.W., Shen B.G.; Influence of Mn substitution on the structure and magnetic properties of Sm2Co17 compounds; J. Phys.: Condens. Matter; 13 (2001) 2001.

[46] Sun Z.G., Zhang S.Y., Zhang H.W., Shen B.G.; The structure and magnetic properties of Gd2Co17-xMnx (x=0-4) compounds; J. Alloys & Comp.; 322 (2001) 69.

[47]Sun Z.G., Zhang Z.R., Shen B.G., Han B.S., Shi J.C., Chin T.S.; Honeycomb domain structures in amorphous TbFe thin films; J. Appl. Phys.; 90 (2001) 3124.

[48]Tang N., Bao F.Q., Wang J.L., Yin X.Y., Wu G.H., Yang F.M.; Magnetic properties of Pr2Fe6.8Co10.2-xMx (M=Si, Ga, and V); IEEE Trans. Magn.; 37 (2001)2546.

[49] Tong N.H., Shen S.Q., Pu F.C.; Mott-Hubbard transition in infinite dimensions; Phys. Rev. B; 64 (2001)235109.

[50] Wang H., Zhou Y.S., Chen J.C., Li T., Zhao H.W., Zhan W.S., Wang S.Y., Chen L.Y.; Interface effects on the magneto-optical Kerr effect and optical properties in Co/Ni multiplayer; Chin. Phys. Lett.; 18 (2001)1117.

[51] Wang J., Wang W.N., Chen X., Zhao H.W., Zhao J.G., Zhan W.S.; Effect of an antiferromagnetic layer on the temperature dependence of coercivity in biased FeMn/Co systems; J. Appl. Phys.; 89 (2001)3897.

[52]Wang J.L., Shen Y.P., Yang C.P., Tang N., Yang D., Wu G.H., Yang F.M.; Spin reorientation and magnetohistory of DyFe12-xNbx compounds; J. Phys. Condens. Matter; 13 (2001)1733.

[53] Wang J.L., Tang N., Bao. F.Q., Wang W.H., Wang W.Q., Wu G.H., Yang Y.M.; A study of the magnetocrystalline anisotropy of RFe11-xCox Ti compounds with R=Y and Er; J. Phys.: Condens. Matter; 13 (2001)1617.

[54] Wang W.H., Hu F.X., Wu G.H., Chen J.L., Li Y.X., Zhan W.S., Wang Z., Gao Z.Y. and Zhao L.C.; Magnetic properties and structural phase transformation of Ni-Mn-Ga alloys; IEEE Trans. Magn.; 37 (2001) 2715.

[55]Wang W.H., Liu Z.H., Chen J.L., Wu G.H., Zhan W.S.; Thermal hysteresis and friction of phase-boundary motion in ferromagnetic Ni52Mn23Ga25 single crystals; Phys. Rev. B; 65 (2001)12416.

[56] Wang W.H., Wu G.H., Chen J.L., Gao S.X., Zhan W.S., G. H. Wen, Zhang X.X.; Intermartensitic transformation and magnetic-field-induced strain in Ni52Mn24.5Ga23.5 single crystals; Appl. Phys. Lett.; 79 (2001)1148.

[57]Wang W.H., Wu G.H., Chen J.L., Gao S.X., Zhan W.S., Wang Z., Gao Z.Y., Zhao L.C.; Magnetic field-controlled shape memory in Ni52.5Mn23.5Ga24 single crystals; Adv. Engi. Mater.; 5 (2001)330.

[58] Wang W.H., Wu G.H., Chen J.L., Zhan W.S., Wang Z., Gao Z.Y., Zhao L.C.; Effect of low dc magnetic field on the premartensitic phase transition temperature of ferromagnetic Ni2MnGa single crystals; J. Phys.: Condens. Matter; 13 (2001)2607.

[59] Wang W.Q., Wang J.L., Bao. F.Q., Tang N., Wu G.H., Yang F.M., Jin H.M.; Structural and magnetic properties of (Nd1-xRx)3Fe27.31Ti1.69 compounds with R=Er and Dy; J. Phys. Appl. Phys.; 34 (2001)3331.

[60] Wang W.Q., Wang J.L., Tang N., Bao. F.Q., Wu G.H., Yang F.M., Jin H.M.; Structural and magnetic properties of RCo12-xTix (R=Y and Sm) and YFe12-xTix compounds; J. Phys. Appl. Phys.; 34 (2001)307.

[61]Wang W.Q., Wang J.L., Tang N., Tang G.H., Yang F.M., Jin H.M.; Formation, structure and magnetc properties of Gd3(Co, Cr)29 compounds; J. Appl. Phys.; 90 (2001)1920.

[62] Wang W.Q., Wang J.L., Yang D., Tang N., Yang F.M., Wu G.H., Jin H.M.; Synthesis and Magneyic properties of Gd3(Fe, Co, Cr)29 compounds; Chin. Phys. Lett.; 18 (2001)969.

[63] Wang Y., Shen J., Chen N.X., Wang J.L.; Theoretical investigation on site preferance of foreign atoms in rare earth intermetallics; J. Alloys & Comp.; 319 (2001)62.

[64] Wang Z., He K.Y., Jin J., He J., Zhang L., Zhang H.W., Shen B.G.; Temperature dependence of permeability for Fe-Cu-M-Si-B alloys; Mater. Sci. & Engi. A; 304-306 (2001) 1046.

[65] Xiong Y, Shen S.Q., Xie X.C.; Percolative conductivily and critical exponents in mixed-valent manganites; Phys. Rev. B; 63 (2001)140418.

[66] Yan A.R., Sun Z.G., Zhang W.Y., Zhang H.W., Shen B.G.; Magnetic properties, domain structure, and microstructure of anisotropic SmCo6.5Zr0.5 ribbons with C addition; J. Mater. Res.; 16 (2001) 629.

[67] Yang C.P., Jiang Z.L., Chen X.Y., Zhou H.W., Ma C.L., Zhu J., Wang Y.Z., Hu B.P., Zhang H.W., Shen B.G.; Microstructure and magnetic properties of two-phase nanocomposite Nd9Fe85.5Nb1.0B4.5-yCy (y=0.5-4.5) magnets; J. Alloys & Comp.; 316 (2001) 269.

[68] Yin J.H., Chen X., Zhang S.Y., Zhang H.W., Shen B.G.; Characterizing interactions in exchange-spring magnets using a mean field Stoner-Wolhfarth model; J. Phys. D: Appl. Phys.; 34 (2001) 514.

[69] Yin J.H., Shen B.G., Wang D.H., Yin X.B., Wang M., Du Y.W.; Magnetic properties and magnetic domain structure of Nd6Dy2Fe82Co4B6 nanocomposite magnets; J. Alloys & Comp.; 316 (2001) 296.

[70] Yin J.H., Sun Z.G., Zhang Z.R., Zhang H.W., Shen B.G.; Temperature dependence of exchange field in exchange-spring magnets; J. Appl. Phys.; 89 (2001) 8351.

[71] Yin J.H., Zhang S.Y., Zhang H.W., Shen B.G.; Application of a mean field Stoner-Wohlfarth model in nanocrystalline ribbons; J. Phys. D: Appl. Phys; 34 (2001) 525.

[72] Yin X.Y., Tang N., Wang J.L., Bao F.Q., Wu G.H., Yang F.M., Shen Y.P., Zhong X.P.; Magnetic properties of Ga substituted ErFe10Si2 compounds; IEEE Trans. Magn.; 37 (2001)2612.

[73] Yu G.H., Chai C.L., Zhu F.W., Xiao J.M., Lai W.Y.; Interface reaction of NiO/NiFe and its influence on magnetic properties; Appl. Phys. Lett.; 78 (2001)1706.

[74] Yu G.H., Zeng L.R., Zhu F.W., Chai C.L., Lai W.Y.; Magnetic properties and x-ray photoelectron spectroscopy study of NiO/NiFe films prepared by magnetron sputtering; J. Appl. Phys.; 90 (2001)4039.

[75] Yu M.C., Qian H.J., Liu F.Q., K.Ibrahim, Lai W.Y., Wu S.C.; Ultrathin Pb film growth on Cu(111) studied by photoemission; Solid State Commun.; 117 (2001)327.

[76] Zhang A.Z., Zhang P., Duan S.Q., Zhao X.G., Liang J.Q.; Aneffective two-level channel for an impurity in a superlattice; Chin. Phys.; 10 (2001) 537.

[77] Zhang A.Z., Zhang P., Duan S.Q., Zhao X.G., Liang J.Q.; Dynamics of a superlattice with an impurity in an ac electric field; Phys. Rev. B; 63 (2001) 045319.

[78]Zhang H.W., Zhang S.Y., Shen B.G., D. Goll and H. Kronmüller; Magnetic viscosity and demagnetization behaviour in isotropic nanocrystalline Pr12Fe82B6 ribbons; Chin. Phys.; 10 (2001) 1169.

[79]Zhang H.W., Zhang W.Y., Sun Z.G., Yan A.R., Shen B.G.; The permanent magnetic properties of Sm2Fe15-xCoxSi2C (x=0-5) with additional Cu; Mater. Sci. & Engi. A; 304-306 (2001) 965.

[80]Zhang H.W., Zhang W.Y., Yan A.R., Sun Z.G., Shen B.G., Tung I.C., Chin T.S.; The hard magnetic properties of nanocomposite Nd3.6Pr5.4Fe83Co3B5 ribbons prepared by melt-spinning; Mater. Sci. & Engi. A; 304-306 (2001) 997.

[81] Zhang J. et.al; Field-induced transition in the layered manganite LaEu0.2Sr1.8Mn2O7; J. Phys: Condens. Matter; 13 (2001) 917.

[82] Zhang J., Cheng Z.H, Zhao T.Y., Zhang S.Y., Rong C.B., Shen B.G.; Structure and superconductivity of Mg1-xLixB2; Chin. Phys.; 10 (2001) 443.

[83]Zhang J., Zhang S.Y., Zhang H.W., Shen B.G., Li B.H.; Structure and magnetic properties of SmxCo5/a-Fe (x=0.65-1.3) prepared by mechanical milling and subsequent annealing; J. Appl. Phys.; 89 (2001) 2857.

[84] Zhang J., Zhang S.Y., Zhang H.W., Shen B.G.; Structure, magnetic properties and coercivity mechanism of nanocomposite SmCo5/α-Fe magnets prepared by mechanical milling; J. Appl. Phys.; 89 (2001) 5601.

[85] Zhang P., Zhang A.Z., Duan S.Q., Zhao X.G.; Dynamical spin localization of spinor condensate driven by external magnetic fields; Phys. Lett. A; 286 (2001) 107.

[86] Zhang S.Y., Zhang J., Zhao T.Y., Rong C.B., Shen B.G. Cheng Z.H; Structure and superconductivity of Mg(B1-xCx)2 compounds; Chin. Phys.; 10 (2001) 335.

[87] Zhang S.Y., Zhao P., Cheng Z.H, Li R.W., Sun J.R., Zhang H.W., Shen B.G.; Magnetism and giant magnetoresistance of YMn6Sn6-xGax (x=0-1.8) compounds; Phys. Rev. B; 64 (2001) 212404.

[88]   Zhang S.Y., Zhao P., Li R.W., Sun J.R., Cheng Z.H, Zhang H.W., Shen B.G.; Structure, magnetic properties and giant magnetoresistance of YMn6Sn6-xGax(x=0-0.6) compounds; Chin. Phys.; 10 (2001) 345.

[89]   Zhang W.Y., Shen B.G., Cheng Z.H, Li J.Q., Li L., Zhou Y.Q.; Benefical effect of Gd substitution on magnetic properties of magnetically anisotropic SmCo5 ribbons; Appl. Phys. Lett.; 79 (2001) 1843.

[90]   Zhang W.Y., Yan A.R., Shen B.G.; Structure and magnetic properties of (Sm1-xPrx)2Fe14Ga3C2 (x=0-0.5); Mater. Sci. & Engi. A; 318 (2001) 254.

[91]   Zhang W.Y., Yan A.R., Zhang H.W., Shen B.G.; Effect of the substitution of Co for Fe on phase components and magnetic properties of melt-spun Pr9Fe85B5 nanocomposites; J. Alloys & Comp.; 315 (2001) 174.

[92]   Zhang W.Y., Yan A.R., Zhang H.W., Zhang S.Y., Shen B.G.; Effect of the substitution of Gd for Sm on magnetic anisotropy of melt-spun Sm1-xGdxCo5 ribbons; J. Phys. D: Appl. Phys.; 34 (2001) 1065.

[93]   Zhang W.Y., Yan A.R., Zhang H.W., Zhang S.Y., Shen B.G.; High coercivity Nd2(Fe,Co)14C-type ribbons prepared by melt spinning; J. Mag. Mag. Mat.; 234 (2001) 284.

[94]   Zhang W.Y., Zhang J., Cheng Z.H, Zhang S.Y., Shen B.G.; Microstructure refinement and improvements of magnetic properties of Pr2(Fe,Co)14B/a-(Fe,Co) nano-composites by additional Ga; J. Phys.: Condens. Matter; 13 (2001) 3859.

[95]   Zhang W.Y., Zhang S.Y., Yan A.R., Zhang H.W., Shen B.G.; Effect of the substitution of Pr for Nd on microstructure and magnetic properties of nanocomposite Nd2Fe14B/a-Fe magnets; J. Mag. Mag. Mat.; 225 (2001) 389.

[96]   Zhang Y.D., W.A. Hines, J.I. Budnick, Yang D.P., Shen B.G., and Cheng Z.H; Study of spin-reorientation in Tm2Fe17-xGax and Sm2Fe17-xGax compounds; IEEE Trans. Magn.; 37 (2001) 2603.

[97]   Zhang Z.R, Liu H., Han B.S; Magnetization reversal processes in Pt/Co multilayers studied by magnetic force microscope; Chin. Phys. Lett.; 18 (2001) 737.

[98]   Zhang Z.R., Han B.S., He Y.Q., Zhou S.Z.; Plate domain structure of sintered NdFeB magnets and dependence on compacting mode; J. Mater. Res.; 16 (2001) 2992.

[99]   Zhao P., Zhang S.Y., Zhang H.W., Sun J.R., Cheng Z.H, Shen B.G.; Structure and magnetic properties of TbMnSn1-xTix (x=0-0.9) compounds; IEEE Trans. Magn.; 37 (2001) 2609.

[100]  Zhao P., Zhang S.Y., Zhang H.W., Yan A.R., Shen B.G.; Remarkable improvement of the coercivity of TbMn6Sn6 compound by melt-spinning process; Chin. Phys.; 10 (2001) 869.

[101]  Zhou B., Liang J.Q., Pu Fu-Cho; Crossover from quantum tunneling to classical hopping of domain walls in ferromagnets; Phys. B; 304 (2001) 141.

[102]  Zhou B., Liang J.Q., Pu Fu-Cho; Phase transition in quantum tunneling for a parameterized double-well potential; Phys. Lett. A; 278 (2001) 243.

[103]  Zhou B., Liang J.Q., Pu Fu-Cho; Quantum tunneling for the asymmetric double-well potential at finite energy; Phys.Lett.A; 281 (2001) 105.

[104]  Zhou B., Liang J.Q., Pu Fu-Cho; Quantum-classical crossover of the escape rate of a biaxial spin system with an applied magnetic field; Phys. B; 301 (2001) 180.

[105]  Zhou B., Liang J.Q., Pu Fu-Cho; Quantum-classical transition of the escape rate in ferrimagnetic or antiferrimagnetic particles with an applied magnetic field; Phys. Rev. B; 64 (2001) 132407.

[106]  Zhou B., Liang J.Q.; Quantum-classical phase transition of nucleation rate in a one-dimensional uniaxial Heisenberg model with a magnetic field at an arbitrary direction; Int. J. Mod. Phys. B; 15 (2001) 3143.

[107]  Zhu T., Shen B.G., Sun J.R., Zhao H.W., Zhan W.S.; Surface spin-glass behavior in La2/3Sr1/3MnO3 nanoparticles; Appl. Phys. Lett.; 78 (2001) 3863.

[108]  Zhu T., Sun J.R., Shen B.G.; Comment on ''Grain-boundary effects on the electrical resistivity and the ferromagnetic transition temperature of La0.8Ca0.2MnO3''; Appl. Phys. Lett.; 78 (2001) 1790.

[109]  Zhu T., Wang Y.J., Zhao H.W., Zhao J.G., Zhan W. S.; Tunneling magnetoresistance and magnetic properties of Fe-Al2O3 nanogranular films; J. Appl. Phys.; 89 (2001) 6877.

[110]  Zhu T., Yan C.H., Wang Z.M., Zhao H.W., Sun J.R., Shen B.G.; Low-field magnetoresistance in La2/3Sr1/3MnO3 granular composites by a sol-gel coating process; Solid State Commun.; 117 (2001)471.

Surface

[1]   Bai X.D., Guo J.D., Yu Jie, Wang E.G., Yuan J., and Zhou W.Z.; Synthesis and field-emission behavior of highly oriented boron carbonitride nanofibers; Appl. Phys. Lett.; 76 (2000) 2624.

[2]   Bai X.D., Wang E.G., Yu J., Yang H.; Blue-violet photoluminescence from large-scale highly aligned boron carbonitride nanofibers; Appl. Phys. Lett.; 77 (2000) 67.

[3]   Bai X.D., Yu J., Liu S., and Wang E.G.; Role of nickel particles in selected growth of boron carbonitride tubular structures; Chem. Phys. Lett.; 325 (2000) 485.

[4]   Cao Z.X.; Auger electron spectroscopy sputter depth profiling technique for binary solids; Surf. Sci.; 452 (2000) 220.

[5]   Cao Z.X.; Concentration microprofiles in iron silicides induced by low energy Ar+ ion bombardment; Hans Oechsner; Nuclear Instruments and methods in physics research B; 168 (2000) 192.

[6]   Cao Z.X.; On the formation of concentration profiles by low-energy ion bombardment and sputter depth profiling; Hans Oechsner; Nuclear Instruments and methods in physics research B; 170 (2000) 53.

[7]   Cao Z.X.; Stoichiometric cBN films deposited by electron-cyclotron-wave-resonance plasma sputtering of hBN; Diam. Relat. Mater.; 9 (2000) 1881.

[8]   Chen H., Cai L.C., Bao C.L., Li J.H., Huang Q., Zhou J.M.; Two-step method to grow InAs epilayer on GaAs substrate using a new prelayer; J. Cryst. Growth; 208 (2000) 795.

[9]   Chen H., Li Z.Q., Liu H.F., Wan L., Zhang M.H., Huang Q., Zhou J.M., Luo Y., Han Y.J., Tao K., Yang N.; Controllable cubic and hexagonal GaN growth on GaAs (001) substrates by MBE; J. Cryst. Growth; 210 (2000) 811.

[10]   Guo J.D., Ma X.C., Zhao R.W., Wang E.G.; Carbon nitride films on diamond layers and their thermal behavior; J. Mater. Sci.; 35 (2000) 2209.

[11]   Guo L.W., Peng D.L., Makino H., Inaba K., Ko H.J., Sumiyama K., Yao T.; Structural and magnetic properties of Mn3O4 films grown on MgO(001) substrates by plasma – assisted MBE; J. Cryst. Growth; 213 (2000) 321.

[12]   Kang J., Xiao C.Y., Xiong Y.Y., Wang Y.G., Meng Q.B., Lin Z.D., Feng K.A.; Diamond nucleation and growth under very low-pressure conditions; Diam. Relat. Mater.; 9 (2000) 1691.

[13]   Kuang M.H., Wang Z.L., Bai X.D., Guo J.D., and Wang E.G.; Catalytically active nickel {110} surfaces in growth of carbon tubular structures; Appl. Phys. Lett.; 76 (2000) 1255.

[14]   Li H.W., Wang T.H.; Resonant tunneling through quantum dots in GaAs Schottky diode structures; Phys. Low-Dimens. Str.; 9/10 (2000) 119.

[15]   Li Z.Q., Chen H., Liu H.F., Li J.H., Wan L., Zhang M.H., Huang Q., Zhou J.M., Yang N., Tao K., Han Y.J., Luo Y.; Influence of Si doping on optical characteristics of cubic GaN on (001) GaAs substrates; Appl. Phys. Lett.; 76 (2000) 3765.

[16]   Li Z.Q., Chen H., Liu H.F., Zhang M.H., Wan L., Huang Q., Zhou J.M., Yang N., Tao K.; Influence of AlN buffer on phase structure of GaN on GaAs (001) growth by radio-frequency molecular beam epitaxy; Jpn. J. Appl. Phys.; 39 (2000) 4704.

[17]   Liang J.J., Chen W.D., Wang Y.Q., Chang Y., Wang Z.G.; 1.5mm Luminescence Characteristic of Erbium in B, P, Doped a-SiO:H Films; Chin. Phys.; 9 (2000) 783.

[18]   Liang J.J., Chen W.D., Wang Y.Q., He J., Zheng W.M., Wang Z.G.; Photoluminescence and Microstructure of the Erbium-Doped Hydrogenated Amorphous SiOx (0<x<2); Chin. Phys. Lett.; 17 (2000) 838.

[19]   Liu H.F., Chen H., Li Z.Q., Li Wan, Huang Q., Zhou J.M., Yang N., Kun Tao, Han Y.J., Luo Y.; MBE growth and Raman studies of cubic and hexagonal GaN films on (001)-oriented GaAs substrates; J. Cryst. Growth; 218 (2000) 191.

[20]   Liu H.F., Chen H., Z.Q Li, Wan L., Huang Q., Zhou J.M., Yang N., Tao K., Han Y. J., Luo Y.; Growth and properties of hexagonal GaN on GaAs (001) substrate by RF-molecular beam epitaxy using and AlAs nucleation layer; J. Cryst. Growth; 212 (2000) 391.

[21]   Liu J.W., Xie F.Q., Zhang Q.Z., Wu K.H., Ma X.C., Wang E.G., and Liu W.X.; Investigations of Fuch-Kliewer phonons and hydrogen adsorption of 6H-SiC surfaces by high-resolution electron-energy-loss spectroscopy; Thin Solid Films; 375 (2000) 77.

[22]   Ma X., Wang E.G., Tilley R.D., Jefferson E.A., and Zhou W.; Size-controlled short nanobells: Growth and formation mechanism; Appl. Phys. Lett.; 77 (2000) 4136.

[23]   Ma X.C., Xu G.C. and Wang E.G.; Synthesis and characterization of well-aligned carbon nitrogen nanotubes by microwave plasma chemical vapor deposition; Sci. China Ser. E; 43 (2000) 71.

[24]   Ma Z.X., Liao X.B., Kong G.L., Chu J.H.; Absorption Spectra of Nanocrystalline Silicon Embedded in SiO2 Matrix; Mater. Lett.; 42 (2000) 367.

[25]   Ma Z.X., Liao X.B., Kong G.L., Chu J.H.; Raman scattering of nanocrystalline silicon embedded in SiO2; Sci. China Ser. A; 43 (2000) 414.

[26]   Ma Z.X., Liao X.B., Kong G.L., Cui J.H.; Microstructure of SiOx: H films prepared by plasma enhanced chemical vapor deposition; Chin. Phys.; 9 (2000) 309.

[27]   Shen D.H., Wu X.F., Lu H., Froumin N., Polak M.; Microstructure at the interface of titanium carbide and nickel aluminides; Chin. Phys. Soc.; 9 (2000) 528.

[28]   Sheng S.R., Kong G.L., Liao X.B.; Light and annealing induced changes in Si-H bonds in undoped α-Si:H; Solid State Commun.; 116 (2000) 519.

[29]   Sun M., Xu N.; Preparation, microstructure and photochromism of a new anaocrystalline WO3 film; J. Mater. Sci. Lett.; 19 (2000) 1407.

[30]   Sun M., Xu N., Cao Y.W., Yao J.N., Wang E.G.; Nanocrystalline tungsten oxide thin film: Preparation, microstructure, and photochromic behavior; J. Mater. Res.; 15 (2000) 927.

[31]   Wan L., Duan X.F., Chen H., Liu H.F., Li Z.Q., Huang Q., Zhou J.M.; Transmission electron microscopy study of hexagonal GaN film grown on GaAs (001) substrate by using AlAs nucleation layer; J. Cryst. Growth; 220 (2000) 379.

[32]   Wang D.S., and Zhou L.; Effect of the orbital correlation on the magnetocrystalline anisotropy of transition metals: one-dimensional chains; Physica B; 279 (2000) 204.

[33]   Wang J.T., Zhou L., Wang D.S., and Kawazoe Y.; Exchange interaction and magnetic phase transition in layered FeAu superlattices; Phys. Rev. B; 62 (2000) 3354.

[34]   Wang S.B., Zhang H.X., Zhu P., and Feng K.; Structural and electrical properties of chemical vapor deposited diamond films doped by B+ implantation; J. Vac. Sci. Technol. B; 18 (2000) 1997.

[35]   Wang S.B., Zhu P.R., Feng K.A.; Passivation of Boron in the doped CVD diamond films by H+ implantation; Mater. Chem. Phys.; 64 (2000) 10.

[36]   Wang S.B., Zhu P.R., Wang Y.G., Feng K.A.; Influences of H+ implantation on the Boron-doped synthesized by chemical vapor deposition diamond films; Chin. Phys. Lett.; 17 (2000) 686.

[37]   Wang Y., Yue R.F., Li G.H., Liao X.B., Wang Y.Q., Diao H.W., Kong G.L.; A study on strong room temperature photoluminescence of α-Si:H films; Mater. Lett.; 44 (2000) 87.

[38]   Wang Y.G., Gu C.Z, Jin Z.S., Xiong Y.Y., Lin Z.D., Feng K.A.; Effect of surface hydrogen coverage on field emission properties of diamond films investigated by high-resolution electron energy loss spectroscopy; Chin. Phys. Lett.; 17 (2000) 294.

[39]   Wang Y.G., Li H.D., Lin Z.D., Feng K.A.; Growth sector dependence of low frequency Raman peaks observed in Boron-doped homoepitaxial diamond particles; Appl. Phys.; 39 (2000) 2795.

[40]   Wang Y.G., Li H.D., Xiong Y.Y., Zhang S.L., Lin D.L., Feng K.A.; Micro-Raman scattering and photoluminescence study of Boron-doped diamond films; Diam. Relat. Mater.; 9 (2000) 1708.

[41]   Wu J., Liu B.G., Zhang Z.Y., and Wang E.G.; Reaction limited aggregation in surfactant-mediated epitaxy; Phys. Rev. B; 61 (2000) 13212.

[42]   Wu K.H., Wang E.G., Cao Z.X., Wang Z.L., and Jiang X.; Microstructure and its effect on field electron emission of grain-size-controlled nanocrystalline diamond films; J. Appl. Phys.; 88 (2000) 2967.

[43]   Xie F., Sun M., and Von Blanckenhagen P.; Comparative study of harmonic oscillations of tunneling current on partially oxidized Si(100) and Si(111) surfaces by scanning tunneling microscopy and spectroscopy; Surf. Sci.; 454–456 (2000) 1031.

[44]   Xu N., Sun M., Cao Y.W., Yao J.N., Wang E.G.; Influence of pH on structure and photochromic behavior of nanocrystalline WO3 films; Appl. Surf. Sci.; 157 (2000) 81.

[45]   Yu J., Ahn J., Yoon S.F., Zhong Q., Rusli, Gan B., Chew K., Yu M.B., Bai X.D., and Wang E.G.; Semiconducting boron carbonitride nanostructures: Nanotubes and nanofibers; Appl. Phys. Lett.; 77 (2000) 1949.

[46]   Yu J., Bai X.D., Ahm J., Yoon S.F., and Wang E.G.; Highly oriented rich boron B-C-N nanotubes by bias-assisted hot filament chemical vapor deposition; Chem. Phys. Lett.; 323 (2000) 529.

[47]   Yu J., Wang E.G., Ahn J., Yoon S.F., Zhang W., Cui J., and Yu M.B.; Turbostratic boron carbonitride films produced by bias-assisted hot filament chemical vapor deposition; J. Appl. Phys.; 87 (2000) 4022.

[48]   Zhang J.Z., Zhou Y.M., and Wang D.S.; Linearized augmented planewave calculation of cohesive energy of Binary compounds; Chin. J. Comp. Phys.; 17 (2000) 467.

[49]   Zhang M.H., Han Y.J., Zhang Y.H., Huang Q., Bao C.L., Wan W.X., Zhou J.M., Lu L.W.; Evolution from point defects to arsenic clusters in low-temperature grown GaAs/AlGaAs multiple quantum wells; J. Cryst. Growth; 217 (2000) 355.

[50]   Zhang M.H., Zhang Y.F., Huang Q., Bao C.L., Sun J.M., Zhou J.M.; Photolumin-escence characterization of Si-doped low-temperature grown GaAs and GaAs/-AlGaAs multiple quantum wells; J. Cryst. Growth; 209 (2000) 37.

[51]   Zhang Y.F., Sun J.M., Zhang M.H., Zhang Z.G., Huang Q., and Zhou J.M.; Two-wave mixing in stark geometry photorefractive quantum wells under a magnetic field; Appl. Phys. Lett.; 76 (2000) 2585.

[52]   Zhang Y.F., Zhou Q., Zhang M.H., Huang Q., Zhou J.M.; Observation of EL2 and additional deep levels at low temperature in an AlGaAs/GaAs multiple-quantum-well structure; Appl. Phys. Lett.; 77 (2000) 702.

[53]   Zhong J.X., Wang E.G., Niu W., and Zhang Z.Y.; Morphological symmetry breaking during epitaxial growth at grazing incidence; Phys. Rev. Lett.; 84 (2000) 3895.

Optical

[1]   Chen C.T., Lu J.H., wang G.L., Xu Z.Y., Wang J.Y., Zhang C.Q., Liu Y.G.; Deep ultraviolet harmonic generation with KBe2BO3F2 crystal; Chin. Phys. Lett.; 18 (2001) 1081.

[2]   Chen F, Lu H.B., Zhao T., Chen Z.H., Yang G.Z., Zhu X.D.; Monolayer oscillation observed by an oblique-incidence reflectance difference technique for the epitaxial growth of oxides; Chin. Phys. Lett.; 18 (2001) 665.

[3]   Chen F., Lu H.B., Chen Z.H., Zhao T., Yang G.Z.; Optical real-time monitoring of the laser molecular-beam epitaxial growth of perovskite oxide thin films by an oblique-incidence reflectance-difference technique; J. Opt. Soc. Am. B; 18 (2001) 1031.

[4]   Chen F., Lu H.B., Zhao T., Chen Z.H., Yang G.Z.; Optical in situ monitoring of complex oxide thin film laser molecular beam epitaxy; J. Cryst. Growth; 227-228 (2001) 950.

[5]   Chen F., Lu H.B., Zhao T., Wang R.P., Zhou Y.L., Chen Z.H., Yang G.Z.; High quality YBCO superconducting film prepared by LMBE; Science in China: A; 31 (2001) 433.

[6]   Chen L.M., Zhang J., Li Y.T., Teng H., Liang T.J., ZM Sheng, Zhao L.Z., Wei Z.Y., XW Tang,; Effects of laser polarization on jet emission of fast electrons in ultrashort pulse laser-palsmas; Phys. Rev. Lett.; 87 (2001) 225001.

[7]   Chen L.M., Zhang J., Lin H., Li Y.T., Zhao L.Z., Wang L., Jiang W.M.; Disappearance of two-plasmon decay instability in plasmas produced by ultrashort laser pulses; Chin. Phys.; 10 (2001) 40.

[8]   Chen L.M., Zhang J., Q L Dong, Teng H., Liang T.J., Zhao L.Z., Wei Z.Y.; Studies on the vacuum heated hot electrons generated by femtosecond laser-solid interactions; Phys. Plasmas; 8 (2001) 2925

[9]   Chen L.M., Zhang J., Teng H., Dong Q.L., ZL Chen, Liang T.J., Zhao L.Z., Wei Z.Y.; Experimental study of subpicosecond pulse laser interacting with metallic and dielectric targets; Phys. Rev. E; 63 (2001) 036403

[10]   Chen Y.C., Fang X.J., Li J., Liang X.Y., Zhang H.L., Feng B.H., Zhang X.L., Wu L.A. and Xu Z.Y.; Efficient femtosecond optical parametric generator with a birefringent delay compensator; Appl. Opt.; 40 (2001) 2579.

[11]   Dong B.Z., Liu J., Gu B.Y., Yang G.Z., Wang J.; Rigorous electromagnetic analysis of a micro-cylindric axilens with long focal depth and high transverse resolution; J. Opt. Soc. Am. A; 18 (2001) 1465.

[12]   Dong Q.L. and Zhang J.; Electron acceleration by static and oscillating electric fields produced in interaction between femtosecond laser pulses and solid targets; Phys. Plasmas; 8 (2001) 1025

[13]   Dong Q.L., Zhang J. and H. Teng; Absorption of fs laser pulses in interaction with solid targets; Phys. Rev. E; 64 (2001) 026411

[14]   Dong Q.L., Zhang J., Liang T.J., Zhang P., Chen L.M.; Ion acceleration by an electrostatic field in the interaction between femtosecond laser pulses and solid targets; Chin. Phys. Lett.; 18 (2001) 796.

[15]   Fu P., Wang B., Li X., and Gao L.; Interrelation between high-order harmonic generation and above-threshold ionization; Phys. Rev. A; 64 (2001) 063401.

[16]   Fu P., Wang Y., Jiang Q., Mi X., and Yu Z.; Ultrafast modulation spectroscopy in cascading three-level and four-level systems; J. Opt. Soc. Am.; B 18 (2001) 370.

[17]   Guo D., R. R. Freeman, Gao L., Li X., Fu P., T. Edis and A. Troha; Spin-other-orbit effect of photon modes; J. Phys.; B 34 (2001) 2983.

[18]   Guo X.X, Chen Z.H., Zhou Y.L., Dai S.Y., Liu L.F., Li R.W., Zheng D.J.; Effect of strain and grain size on the transport and magnetic aniso-tropic properties of LaSnMnO epitaxial films; Solid State Commun.; 119 (2001) 387.

[19]   Guo Y., Wang H.H., Tan G.T., Jiang A.Q., Zhou Y.L., Yang G.Z., Chen Z.H.; Large third-order nonlinear optical susceptibility of Rh-doped BaTiO3 thin films prepared by pulsed laser deposition; Chin. Phys. Lett.; 18 (2001) 1598.

[20]   Guo Y., Zheng X., Hai M., Zhang Q.J., Xie A.F., Zhang Z.B., Gu B.Y.; Optical property of fractal clusters in Nd3+ doped polymer optical fiber; J. Mater. Sci. Lett.; 20 (2001) 521.

[21]   H Lin, Chen L.M., Zhang J., Zhang P., WB Fan; Self-modulation of an intense laser beam in near-critical homogeneous plasmas; Phys. Plasmas; 8 (2001) 1707.

[22]   Jiang A.Q., Chen Z.H., Chen F., Zhou Y.L., He M., Yang G.Z.; Effect of modulated antiparallel domain patterns on the dielectric permittivity in epitaxial Bi2Ti4O11-Bi4Ti3O12 films; Phys. Rev. B; 63 (2001) 104102.

[23]   Jiang A.Q., Chen Z.H., etc; Current transient versus time investigation of charged defect motion in sandwich-structured La-modified Bi2Ti4O11 films for large charge storage; Solid State Commun.; 120 (2001) 65.

[24]   Jiang Q., Mi X., Yu Z., Wang Y., Wang L., Fu P.; Phase-sensitive detection of Raman-enhanced nondegenerate four-wave mixing by polarization interference; Chin. Phys. Lett.; 18 (2001) 54.

[25]   Jin C.J., Meng X.D., Cheng B.Y., Li Z.L., and Zhang D.Z.; Photonic gap in amorphous photonic materials; Phys. Rev. B; 63 (2001) 195107.

[26]   Jin C.J., Sun Z.W., Cheng B.Y., Li Z.L., Zhang D.Z.; Microcavities composed of point defects and waveguides in two-dimensional photonic crystals; Opt. Commun.; 188 (2001) 255.

[27]   Jin K.J., Barry C Sanders, Pan S.H., Yang G.Z.; Row structure in metal-induced Si(111) surface reconstructions; Surface and Interface Analysis; 32 (2001) 166.

[28]   Jin K.J., Wen W.J.; The evolution of bending chains in magnetorheological fluid at external field; Phys. Lett. A; 286 (2001) 347.

[29]   Jin K.J., Zhang J.D., Chen Z.H., Yang G.Z., Chen Z., Shi X.H., Shen S.C.; Phonon-indused photoconductive response in doped semiconductors; Phys. Rev. B; 64 (2001) 205203.

[30]   Li C.L., Chen Z.H., Zhou Y.L., Cui D.F.; Effect of oxygen content on the dielectric and ferroelectric properties of laser-deposited BaTiO3 thin films; J. Phys.: Condens. Matter; 13 (2001) 5261.

[31]   Li D.H., Zhu C.H., Volker Gaebler, Liu B.N., H. J. Eichler, Zhang Z.G., Wang Y., Li Z.J., Qiu J.L.; Theoretical and experimental studies of noise suppression for intracavity frequency doubled lasers with phase matching type I or II; Opt. Commun.; 189 (2001) 357.

[32]   Li Y.J. and Zhang J.; Hydrodynamic characteristics of transient Ni-like x-ray lasers; Phys. Rev. E; 63 (2001) 036410

[33]   Li Y.J., Zhan C.L., Zhao L.Z., Wang D.Y., Lu Z.Z., Nie Y.X.; Two-photon absorption and fluorescence of a novel compound trans-1,3,5-tri-( 4-N, N-Dimethylamino-benzylstyryl)-Acetylacetone; Chin. Phys. Lett.; 18 (2001) 205.

[34]   Li Y.J., Zhang J., Teng A.P.; An analytic model for transient collisional x-ray lasers; Chin. Phys.; 10 (2001) 516.

[35]   Li Y.J., Zhang J.; Analytical study of transient Ni-like x-ray lasers; J. de Physique IV; 11 (2001) Pr2-83

[36]   Li Y.T., Zhang J., Chen L.M., Xia J.F., Teng H., Li Y.J., Zhao L.Z., JQ Lin, Wei Z.Y., Jiang W.M.; Optical diagnostics of femtosecond laser-plasmas; Science in China ; 44 (2001) 98

[37]   Li Y.T., Zhang J., Chen L.M., YF Mu, Liang T.J., Wei Z.Y., Dong Q.L., ZL Chen, Teng H., ST Chunyu, Jiang W.M., ZJ Zheng; Hot electrons in the interaction of femtosecond laser pulses with foil targets at a moderate laser intensity; Phys. Rev. E; 64 (2001) 046407

[38]   Liao J., Wang X.G., Wu L.A., Pan S.H.; Nonclassical properties and hole burning in the real and imaginary binomial states; Int. J. Mod. Phys.; 15 (2001) 2115.

[39]   Liao J., Wang X.G., Wu L.A., Pan S.H.; Real and imaginary negative binomial states; J. Opt. B: Quantum Semiclass. Opt.; 3 (2001) 302.

[40]   Lin J.Q., Zhang J., Li Y.J., Chen L.M., Lu T.Z., Teng H., Man B.Y., Zhao L.Z.; Measurement of laser absorption and ion energy in femtosecond laser-cluster interaction; Chin. Phys. Lett.; 18 (2001) 211.

[41]   Liu S.B., Tu Q.F., Yu W., Chen Z.H., Zhang J.; Simulation for interaction of linearly polarized relativistic laser pulses with foil targets; Chin. Phys. Lett.; 18 (2001) 646

[42]   Lu X., Li Y.J., Zhang J.; Optimization of drive pulse configuration for a high gain transient x-ray laser at 19.6 nm; Chin. Phys. Lett.; 18 (2001) 1353

[43]   Lu Y., Li C., Zhang Y., Huang Q., Fu P., Zhang Z., Lu L., Chen H., Qu C., Tang J.; Study of the four-wave mixing diffraction efficiency of longitudinal-filed multiple-quantum-well photorefractive device grown at low temperature; Chin. Phys.; 10 (2001) 121.

[44]   Lv L., Wang L., Fu P., Chen X., Zhang Z., V. Gaebler, Li D., Liu B., H. J. Eichler, Zhang S., Liu A., Zhu Z.; Diode-pumped self-Q-switched single-frequency 946-nm Nd3+, Cr4+:YAG microchip laser; Opt. Lett.; 26 (2001) 72.

[45]   Ni P.G., Cheng B.Y., Dong P., and Zhang D.Z.; A novel Titania membrane with uniform macro-pores; Chin. Phys. Lett.; 18 (2001) 1610.

[46]   Ni P.G., Dong P., Cheng B.Y., Li X.Y., and Zhang D.Z.; Synthetic SiO2 opals; Adv. Mater.; 13 (2001) 437.

[47]   Siu G.G., Lee C.M., Lu Y.L.; Magnons and acoustic phononsin Y3-xBixFe5O12; Phys. Rev. B; 64 (2001) 094421.

[48]   Sun J.L., Xu J.H., Tian G.Y., Guo J.H., Zhao J., Xie A.F., Zhang Z.B.; Fabrication and application of nearfield optical fibre probe; Chin. Phys.; 10 (2001) 631.

[49]   Teng H., Xia J.F., Wei Z.Y., Zhang J.; An efficient chirped-pulse multi-pass preamplifier; J. Korean Phys. Society; 39 (2001) 831

[50]   Wang B., Li X., and Fu P.; Enhanced harmonic generation by bichromatic laser fields; Chin. Phys. Lett.; 18 (2001) 60.

[51]   Wang B., Li X., Gao L., Fu P., Guo D., and R. R. Freeman; Connection between high-harmonic generation and above-threshold ionication; Chin. Phys. Lett.; 18 (2001) 1199.

[52]   Wang B., Li X., Gao L., Fu P., Guo D., R. R. Freeman; Quantum electrodynamics basis of classical-field high-harmonic generation theory; Chin. Phys. Lett.; 18 (2001) 1196.

[53]   Wang H.H., Chen F., Dai S.Y., Zhao T., Lu H.B., Cui D.F., Zhou Y.L., Chen Z.H., Yang G.Z.; Sb-doped SrTiO3 transparent semiconductor thin films; Appl. Phys. Lett.; 78 (2001) 1676.

[54]   Wang H.H., Cui D.F., Dai S.Y., Lu H.B., Zhou Y.L., Chen Z.H., Yang G.Z.; Optical and transport properties of Sb-doped SrTiO3 thin films; J. Appl. Phys.; 90 (2001) 4664.

[55]   Wang H.H., Cui D.F., Zhou Y.L., Chen Z.H., Chen F., Zhao T., Lu H.B., Yang G.Z.; Growth and characterization of SrMoO3 thin films; J. Cryst. Growth; 226 (2001) 261.

[56]   Wang H.H., Yang G.Z., Cui D.F., Lu H.B., Zhao T., Chen F., Zhou Y.L., Chen Z.H.; Epitaxial growth and electric characteristics of SrMoO3 thin films; J. Vac. Sci. Technol. A; 19 (2001) 930.

[57]   Wang S.F., Dai S.Y., Zhou Y.L., Chen Z.H., Cui D.F., Xu J.D., He M., Lu H.B., Yang G.Z., Fu G.S., Han L.; Superconducting MgB2 thin films grown by pulsed laser deposition on Al2O3(0001) and MgO(100) substrates; Supercond. Sci. Technol.; 14 (2001) 1.

[58]   Wang S.F., Dai S.Y., Zhou Y.L., Chen Z.H., Cui D.F., Xu J.D., He M., Lu H.B., Yang G.Z.; Superconducting MgB2 thin films with Tc≈39K grown by pulsed laser deposition; Chin. Phys. Lett.; 18 (2001) 967.

[59]   Wang X.G., Pan S.H., Yang G.Z.; Antitrace maps and light transmission coefficients for generalized Fibonacci multilayers; Chin. Phys. Lett.; 18 (2001) 80.

[60]   Wang Y., Jiang Q., Li L., Mi X., Yu Z., and Fu P.; Observation of Rydberg series in sodium vapor by two-photon resonant nondegenerate four-wave mixing; Chin. Phys. Lett.; 18 (2001) 1202.

[61]   Wu Z.G., Wang D.H., Luo J., Zhou Z.B., Nie Y.X., Zhang Y.Z.; A fast melting release method in free-fall equivalence principle test; Chin. Phys. Lett.; 18 (2001) 172.

[62]   Xia J.F., Wei Z.Y., Qiu Y., Lu T.Z., Teng H., Wang Z.H., Zhang J.; Temporal characterization of laser pulses from Jiguang-I laser facility with a compact dual function autocorrelator; Chin. Phys.; 10 (2001) 946.

[63]   Xie A.F., Gu B.Y., Yang G.Z., Zhang Z.B.; Image of near-field second-harmonic generation for inversely poled mesoscople LinbO3 domains; Phys. Rev. B; 63 (2001) 054104.

[64]   Xu J.Z., Wang L., Yang G.Z.; Effects of spectral linewidthof ultrashort pulses on the spatio-temporal distribution of Diffraction fields; Chin. Sci. Bull.; 46 (2001) 901.

[65]   Yan L., Lu H.B., Chen Z.H., Dai S.Y., Tan G.T., Yang G.Z.; Highly conductive Nb-doped BaTiO3 epitaxial thin films grown by laser molecular beam epitaxy; Chin. Phys. Lett.; 18 (2001) 1513.

[66]   Yang G.Z., Lu H.B., Chen F., Zhao T., Chen Z.H.; Laser molecular beam epitaxy and characterization of perovskite Oxide thin films; J. Cryst. Growth; 227-228 (2001) 929.

[67]   Yang H., Zhang J., Yu W, Li Y.J., Wei Z.Y.; Long plasma channels for laser triggered lighting; Phys. Rev. E; 65 (2001) 016406

[68]   Yang H., Zhao Z.W., Zhang J., Deng P.Z., Xu J., Wei Z.Y., Zhang J.; Continuous-wave laser oscillation of Yb:FAP crystals at a wavelength of 1043 nm; Chin. Phys.; 10 (2001) 1136.

[69]   Yao X.C., Li Z.L., Guo H.L., Cheng B.Y., Zhang D.Z.; Effects of spherical aberration on optical trapping forces for rayleigh particles; Chin. Phys. Lett.; 18 (2001) 432.

[70]   Zhan C.L., Li D.H., Wang D.Y., Zhang D.Q., Li Y.J., Xu W., Lu Z.Z., Zhao L.Z., Nie Y.X., Zhu D.B.; The high fifth-order nonlinear in a new stilbazolium derivative: trans-1-[p-(p-dimethylaminobenzyl-azo)-benzyl]-2-(N-methyl-4-pyridinium)-etheneiodide; Chem. Phys. Lett.; 347 (2001) 410.

[71]   Zhan C.L., Xu W., Zhang D.Q., Li D.H., Lu Z.Z., Nie Y.X., Zhu D.B.; Optical nonlinear of (TBA)2Ni(dmit)2: Saturable-absorption and negative third-order nonlinear refraction due to charge-transfer transition; Proceedings of SPIE; 4580 (2001) 330.

[72]   Zhang J., Li Y.T., Chen L.M., Teng H., Dong Q.L., Wei Z.Y.; Studies on interaction of femtosecond laser pulses with solid targets; J. Korean Phys. Society; 39 (2001) 825

[73]   Zhang J., Zhao L.Z., Chen L.M., Zhang P., Liang T.J., Wang L., Sheng Z.M.; Studies on fast electrons in ultrashort pulse laser plasmas; J. de Physique IV; 11 (2001) Pr2-211

[74]   Zhang J.Y., Ming H., Liang Z.C., Wang P., Xie J.P., Xie A.F., Zhang Z.B.; Threshold property of photoresist film for two-photon optical memory; Chin. J. Lasers B 10 (2001) 366.

[75]   Zhang P., Liang T.J., Chen L.M., Li Y.T., Chen D.B., Li Z.H., He J.T., Wei Z.Y., Wang L., Yang X.W., Zhang J.; Effects of polarization on super hot electron generation in femtosecond laser-plasma interaction; Chin. Phys. Lett.; 18 (2001) 1374.

[76]   Zhang Y.Z., Luo J., Nie Y.X.; Gravitational effects of rotating bodies; Modern Phys. Lett. A; 16 (2001) 789.

[77]   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 (2001) 10.

Extreme Conditions

[1]   Cao L.M., Zhang Z., Zhang X.Y., Sun L.L., Wang W.K.; Synthesis of diamond from carbon nanotubes under high pressure and high temperature; Lett. Edit. Carbon.; 39 (2001) 287.

[2]   Chen G.H., Wang J., Zhao S.P., Han B., Xu F.Z. and Yang Q.S.; Analysis of step Etching on SrTiO3 substrates for the step-Edge YBCO Josephson junctions; Chin. Phys. Lett.; 18 (2001) 106.

[3]   Chen L.C., Wang L.J., Tang D.S., Xie S.S., Jin C.Q.; X-ray diffraction study of carbon nanotubes under high pressure; Chin. Phys. Lett.; 18 (2001) 577

[4]   Ding H.S., Tong L.G., Chen G.H.; A sensitive and stable confocal fabry-perot interferometer for surface ultrasonic vibration detection; Chin. Phys.; 10 (2001) 730.

[5]   Jing X.N., He H.F., Li S.L., and Zhang D.L.; Low temperature threshold field of K0.3MoO3 determined by dielectric measurements; Phy. Rev. B; 63 (2001) 033103.

[6]   Li F.Y., Chen L.C, Wang L.J., Gu H.C., Wang R.J., Che R.Z., Shen Z.Y.; Pressure induced phase transition in TiB; Chin. Phys. Lett.; 18 (2001) 1240.

[7]   Li G, Sun L.L., and Wang W.K.; Effect of gravity field on glass forming ability in ZrTiCuNiBe alloy; Chin. Sci. Bull.; 46 (2001) 2048.

[8]   Li G, Zhan Z.J., Wang L.M., Cao L.M., Sun L.L., Dai D.Y., Zhang J., and Wang W.K.; Effect of gravity on the microstructure of Zr41 Ti14Cu12.5Ni10Be22.5 bulk glass forming alloy; Chin. Sci. Bull.; 46 (2001) 961.

[9]   Li S.C., Wang R.J., Li F.Y., Liu Z.X., Zhu J.L., Yu R.C., Jin C.Q.; Ultrasonic properties of the MgB2 superconductor; Chin. Phys. Lett.; 18 (2001) 1369.

[10]  Li S.C., Zhu J.L., Yu R.C., Li F.Y., Liu Z.X., Jin C.Q.; High pressure synthesis of MgB2 superconductor with Tc above 39 K; Chin. Phys.; 10 (2001) 338.

[11]  Li S.P., Zhao S.X., Pan M.X., X.C. Chen; Eutectic reaction and microstructural characteristics of Al(Li)-Mg2Si alloys; J. Mater. Sci.; 36 (2001) 1569.

[12]  Li Y.L., Sun L.L.; Enhanced crystallization and phase transformation of amorphous silicon nitride under high pressure; J. Mater. Res.; 16 (2001) 67.

[13]  Liu J., Li F.H., Wan Z. H., Fan H. F., Wu X. J., T. Tamura and K. Tanabe; Electron crystallographic image-processing investigation and super-structure deter-mination for (Pb05Sr03Cu0.2)Sr2(Ca0.6Sr0.4)Cu2Oy ; Acta Cryst.; 57 (2001) 540.

[14]  Lu L., Yi W., Zhang D.L.; 3w method for specific heat and thermal conductivity measurements; Rev. of Scientific Instruments; 72 (2001) 2996.

[15]  Pan M.X.,

 Wang J.G., Yao Y.S., Zhao D.Q., Wang W.H.; Pressure dependence of crystallization in Zr41Ti14Cu12.5Ni10Be22.5 bulk metallic glass; J. Phys. Condens. Mater; 13 (2001) L589.

[16]  Pan M.X., Yao Y.S., Wang W.H.; Phase transition of ZrTiCuNiBe bulk amorphous below glass transition temperature under high pressure; Appl. Phys. Lett.; 78 (2001) 601.

[17]  Sun L.L., Takumi Kikegawa, Wu Q., Zhan Z.J. and Wang W.K.; Isostructural trabsition of MgB2 under high pressure; Chin. Phys. Lett.; 18 (2001) 1401.

[18]  Sun L.L., Wu Q. and Wang W.K.; Bulk diamond formation from the presence of C-O-H fluid under high pressure; High Press. Res.; 16 (2001) 1.

[19]  Sun L.L., Wu Q. and Wang W.K.; Dependence of Phase transformation on high pressure in Zr-based bulk metallic glass; Matter. Trans., JIM; 42 (2001) 579.

[20]  Wang L.M., Wang W.H., Sun L.L., Zhang J., and Wang W.K.; Pressure effects on irreversible and reversible contributions to glass transition of Pd39Ni10Cu30P21 bulk metallic glass; Phys. Rev. B; 63 (2001) 052201.

[21]  Wang L.M., Zhan Z.J., Liu J., Sun L.L., Li G., and Wang W.K.; Compression behavior of Pd39Ni10Cu30P20 bulk metallic glass up to 23.5GPa; J. Phys. Condens. Mater; 13 (2001) 5743.

[22]  Wang L.M., Zhan Z.J., Sun L.L., Li G., Wang W.K.; Structural relaxation of Pd Ni-Cu-P bulk metallic glass under high pressure; Chin. Phys. Lett.; 18 (2001) 567.

[23]  Wang R.J., Li F.Y., Qin Z.C., Wang W.H.; Third-order elastic constants and anharmonic properties of the ZrTiCuNiBe bulk metallic glass; Chin. Phys. Lett.; 18 (2001) 414.

[24]  Wang W.H., Fan G.J., Wang R.J., J. Eckert; Formation and properties of Zr-(Ti, Nb)-Cu-Ni-Al bulk metallic glasses; Matter. Trans., JIM; 42 (2001) 587.

[25]  Wang W.H., Li L.L., Pan M.X., Wang R.J.; Characteristics of glass transition and supercooled liquid state of Zr41Ti14Cu12.5Ni10Be22.5 bulk metallic glass; Phys. Rev. B,; 63. (2001) 052204.

[26]  Wang W.H., Wen P., Pan M.X., Wang R.J.; pressure induced amorphization in ZrTiCuNiBe alloy; Appl. Phys. Lett.; 79 (2001) 1106.

[27]  Wang W.H., Wen P., Zhang Y., Pan M.X., Wang R.J.; Equation of state of bulk metallic glass studied by ultrasonic method; Appl. Phys. Lett.; 79, (2001) 3947.

[28]  Wang W.K.; Pressure effcets on elastic properties and glass transition of Zr-, Pd-based bulk metallic glasses; Matter. Trans., JIM; 42 (2001) 606.

[29]  Wei B.C., Wang W.H., Pan M.X., Han B.S., Zhang Z.R., Hu W. R.; Domain strucure of a Nd60Al10Fe20Co10 bulk metallic glass; Phys. Rev. B; 64 (2001) 12406.

[30]  Wei B.C., Wang W.H., Pan M.X.; Domain structure of hard magnetic NdAlFeCo bulk metallic glass; Chin. Sci. Bull.; 46 (2001) 1959.

[31]  Wei B.C., Wang W.H., Zhao D.Q., Zhang Y., Wen P., Pan M.X., Hu W.R.; Glass transition and crystallization process of hard magnetic bulk Nd60Al10Fe20Co10 metallic glass; Science in China: A; 44 (2001) 790.

[32]  Wei B.C., Zhang Y., Zhuang Y.X., Zhao D.Q., Pan M.X., and Wang W.H.; Nd65Al10Fe25-xCox (x = 0, 5, 10) bulk metallic glasses with wide supercooled liquid regions; J. Appl. Phys.; 89 (2001) 3529.

[33]  Xu F.Z., Chen G.H., Yang Q.S., Ye M.F., Li Y.A.; Superconducting film injected by ions from pulsed energetic dense plasma source; Chin. Phys.; 10 (2001) 1049.

[34]  Yang H.D., Lin J.Y., Li H.H., Hsu F. H., Liu C.J., Li S.C., Yu R.C., Jin C.Q.; Order parameter of MgB2: A fully gapped superconductor; Phys. Rev. Lett.; 87 (2001) 167003.

[35]  Yu R.C., Li S.C., Wang Y.Q., Kong X., Zhu J.L., Duan X.F., Zhang Z., and Jin C.Q.; EELS studies of MgB2 superconductor obtained under high pressure; Physica C; 363 (2001) 184.

[36]  Yu R.C., Li S.Y., Zhu J.L., Li F.Y., Zhang Z., Jin C.Q., I.G. Voigt-Martin; Ideal n=3 phase Ca4Mn3O10 of Ruddlesden–Popper series obtained using high pressure and high temperature; J. Appl. Phys.; 90 (2001) 6302.

[37]  Zhang Y., Ji Y.F., Zhao D.Q., Zhuang Y.X., Wang R.J., Pan M.X., Dong Y.D., Wang W.H.; Glass forming ability and properties of Zr/Nb-based bulk metallic glasses; Script Mater.; 44 (2001) 1107.

[38]  Zhang Y., Pan M.X., Wang W.H.; Mie Potential and equation of state of Zr48Nb8Cu14Ni12Be18 bulk metallic glass; Chin. Phys. Lett.; 18 (2001) 805.

[39]  Zhang Y., Zhao D.Q., Wei B.C., Wen P., Pan M.X., Wang W.H.; Formation and properties of Zr48Nb8Fe8Cu12Be24 bulk metallic glass; J. Mater. Res.; 16 (2001) 1675.

[40]  Zhu J.L., Li S.C., Yu R.C., Li F.Y., Liu Z.X. and Jin C.Q.; High pressure and high-temperature synthesis of MgB2 and its superconductivity; Chin. Sci. Bull.; 46 (2001) 1932.

[41]  Zhu J.L., Yu R.C., Li F.Y., Zhang Z. and Jin C.Q.; Phase transition in layered Perovskite-like Manganates Ca3Mn2O7 under high pressure; Int. J. Mod. Phys. B; 18 (2001) 2491.

[42]  Zhu J.L., Yu R.C., Li F.Y., Zhang Z., Jin C.Q.; Study of phase components of La1.5Ca1.5Mn2O7; J. Mater. Res.; 16 (2001) 2027.

[43]  Zhuang Y.X., Yi S.S., Wang W.H.; Electric-field-enhanced crystallization of Zr41Ti14Cu12.5Ni10Be22.5 bulk metallic glass; Matter. Trans., JIM; 42 (2001) 583.

Electron Microscopy

[1]   Chu W.G., Rao G.H., Yang H.F., Liu G.Y., Liang J.K.; Crystal structure and magnetic properties of the compound Nd5Co21B4; J. Appl. Phys.; 92 (2001) 1931.

[2]   Chu W.G., Rao G.H., Yang H.F., Liu G.Y., Liang J.K.; Crystal structure and magnetic properties of Gd3Fe28Re; J. Phys.: Condens. Matter; 13 (2001) L441.

[3]   Dai M.X., Su C., Wang R., and Wang Z.L.; A new phase in polycrystalline magnetoresistive Sr2FeMoO6; Solid State Commun.; 119 (2001) 377.

[4]   Ding Y., Liu J.S., I. Maclaren, and Wang Y.N.; Ferroelectric switching mechanism in SrBi2Ta2O9; Appl. Phys. Lett.; 79 (2001) 1015.

[5]   Ding Y., Liu J.S., Qin H.X., Zhu J.S., and Wang Y.N.; Why lanthanum-substituted bismuth titanate becomes fatigue free in a ferroelectric capacitor with platinum electrodes; Appl. Phys. Lett.; 78 (2001) 4175.

[6]   Ding Y., Liu J.S., Wang Y.N., and Kuo K.H.; Ferroelectric domain structure, domain wall mobility and related fatigue-free behavior in SrBi2Ta2O9; Ferroelectrics; 251 (2001) 165.

[7]   Du G.H., Chen Q., Che R.C., Yuan Z.Y., Peng L.M.; Preparation and structure analysis of Titanium oxide nanotubes; Appl. Phys. Lett.; 79 (2001) 3702.

[8]   Gao M., Liu G.D., Che G.C., Zhao Z.X., Peng L.M.; Characterization of modulation structure in La2CuO4.12 by electron diffraction; Phys. Rev. B; 64 (2001) 224113.

[9]   Ge P.W., T.Nishinaga, Li C.R., Huo C.R., T.Nakamura, Huang W.D., A.E.Voloshin and A.A.Lomov; Growth of GaSb single crystal in space; Science in China: A; 44 (2001) 762.

[10]  Han C.Q., Chen X.L., Liang J.K., Liu Q.L., Rao G.H.; The ternary system Sm2O3-SrO-CuO: compounds and phase relations; J. Alloys & Comp.; 314 (2001) 301.

[11]  Han C.Q., Chen X.L., Liang J.K., Liu Q.L., Rao G.H.; The ternary system Eu2O3-SrO-CuO: Compounds and phase relations; J. Solid State Chem.; 156 (2001) 247.

[12]  Han C.Q., Gao Y., Chen X.L., Liang J.K., Rao G.H.; The ternary system Gd2O3-SrO-CuO: compounds and phase relations; J. Alloys & Comp.; 321 (2001) 54.

[13]  Han P.D., Wang Z.G., Duan X.F. and Zhang Z.; Polarity dependence of hexagonal GaN films on two opposite c faces of Al2O3 substrate; Appl. Phys. Lett.; 78 (2001) 3974.

[14]  He D. W., He M., C. S. Kiminami, Zhang F. X., Xu Y. F., Wang W.K., and Kuo K. H.; Effects of pressure on the solidification of Al-Mn alloy; J. Mater. Res.; 16 (2001) 910.

[15]  K. Bärner and Rao G.H.; Bloch wall anomaly at the canted-ferromagnetci order-order transition of mixed double-exchange/superexchange magnetic systems; Phys. Stat. Sol. B-Basic Res.; 227 (2001) 579.

[16]  Lei C.H., Xu Q., and Sun Y.Q.; Phase orientation relationships in the TiAl-TiAl2 region; Mater. Sci. Engi.; A313 (2001) 227.

[17]  Li C.R., K. Tsukamoto; The direct interference intensity phase analyzing technique for in situ Michelson interference and its application in studying of the fluctuation of crystal growth rates; J. Cryst. Growth; 233 (2001) 336.

[18]  Li H., Li J.Y., He M., Chen X.L., and Zhang Z.; Fabrication of bamboo-shaped GaN nanorods; Appl. Phys. A; 73 (2001) 1.

[19]  Liu Q.L., Rao G.H., and Liang J.K.; Study of a structural phase transition in Gd5(Si1-xGex)4 by means of temperature dependent X-ray diffraction; The Rigaku Journal; 18 (2001) 46.

[20]  Liu Q.L., Rao G.H., Yang H.F., Liang J.K.; Formation of completely miscible solid-solution Gd5(Si1-xGex)4 induced by ferromagnetic exchange interaction; J. Alloys & Comp.; 325 (2001) 50.

[21]  Liu Q.L., X.C. Zhou, Liang J.K., Han C.Q, Rao G.H.; The structure and magnetic properties of the ternary intermetallic compounds La2Co17-xTax; J. Phys.: Condens. Matter; 13 (2001) 6529.

[22]  Liu Z.J., Yuan Z.Y., Zhou W.Z., Peng L.M., Xu Z.D.; Co/carbon-nanotube monometallic system: the effects of oxidation by nitric acid; Phys. Chem. Chem. Phys.; 3 (2001) 2518.

[23]  Liu Z.J., Yuan Z.Y., Zhou W.Z., Xu Z.D., Peng L.M.; Controlled synthesis of carbon-encapsulated Co nanoparticles by CVD; Chem. Vap. Deposition; 7 (2001) 248.

[24]  Ma H.T., Yuan Z.Y., Wang Y., Bao X.H.; Temperature –programmed surface reaction study on C2-oxygenate synthesis over SiO2 and nanoporous zeolitic material supported Rh-Mn catalysts; Surf. Interface Anal.; 32. (2001) 224.

[25]  Sylvic Malo, Wang Y.G.; Crstal symmetry of La3Cu2VO9 and La4Cu3MoO12 derived from the YalO3 hexagonal structure by transmission electron microscopy; Solid State Sci.; 3 (2001) 17.

[26]  Wang R.H., Hu C.Z., and Lei J.L.; Theory of diffuse scattering of theory of diffuse scattering of quasicrystals due to fluctuations of thermalised phonons and phasons; Phys. Stat. Sol.; 225 (2001) 21.

[27]  Wang Y.G., J. TH. M. DE Hosson; Secondary interface dislocations in internally oxidized MgO/Cu composite; J. Mater. Sci. Lett.; 20 (2001) 389.

[28]  Wang Y.G., Yan G.H., J. Th. M. De Hosson; Determination of the Σ 21 [211] orientational relationship in a MgO/Cu composite; Mater. Sci. Engi.; A316 (2001) 87.

[29]  Wang Y.Q., Duan X.F., Wang Z.H., Shen B.G.; Transmission electron microscopy studies of the effect of A-site cation size mismatch and disorder on charge ordering behavior in (La1-xYx)0.5(Ca1-ySry)0.5MnO3; Appl. Phys. Lett.; 78 (2001) 2157.

[30]  Wang Y.Q., Duan X.F., Wang Z.H., Sun J.R., Shen B.G.; Charge-ordering modulation observed in the (La0.5Mn0.5)MnO3 phase of the multiphased manganite La0.9Sn0.1MnO3 at room temperature; Appl. Phys. Lett.; 78 (2001) 2479.

[31]  Wang Y.Q., Ian Maclaren, Duan X.F., Wang Z.H., Shen B.G.; Effect of A-site cation size mismatch on charge ordering behavior in (La1-xYx)0.5(Ca1-ySry)0.5MnO3; J. Appl. Phys.; 90 (2001) 488.

[32]  Wang Y.Q., Ian Maclaren, Duan X.F.; EELS analysis of manganese valence states in rare-earth manganites (La1-xYx)0.5(Ca1-ySry)0.5MnO3; Mater. Sci. & Engi; A 318 (2001) 259.

[33]  Y. Lifshitz, Duan X.F., Shang N.G., Li Q., Wan L., I. Bello, S.T. Lee; Epitaxial diamond polytypes on silicon; Nature; 412 (2001) 404.

[34]  Yang Q.B., Wang Y.M., Liu Q. X., and Yan X. H.; An accurate analytical approach to electron crystallography; Ultramicroscopy; 87 (2001) 177.

[35]  Yuan Z.Y., Chen T.H., Wang J.Z., Li H.X.; Synthesis of mesostructured lamellar aluminophosphates in the presence of alkylpyridinium cationic surfactant; Mater. Chem. Phys.; 68 (2001) 110.

[36]  Yuan Z.Y., Luo Q., Liu J.Q., Chen T.H., Wang J.Z., Li H.X.; Synthesis and characterization of boron-containing MCM-48 cubic mesoporous molecular sieves; Microporous and Mesoporous Materials; 42 (2001) 289-297.

[37]  Yuan Z.Y., Wang J.Z., Zhang Z. L., Chen T.H., Li H.X.; Vanadium-and chromium-containing mesoporous MCM-41 molecular sieves with hierarchical structure; Microporous and Mesoporous Materials; 43 (2001) 227.

[38]  Yuan Z.Y., Zhou W., Zhang Z.L., Liu J.Q., Wang J.Z., Li H.X., Peng L.M.; Morphogenesis of surface patterns and incorporation of redox-active metals in mesoporous silicate molecular sieves; Surf. Interface Anal.; 32 (2001) 193.

[39]  Yuan Z.Y., Zhou W.Z.; A novel morphology of mesoporous molecular sieve MCM-41; Chem. Phys. Lett.; 333 (2001) 427.

[40]  Zhang H., Li J. X., Jin A.Z., and Zhang Z.; Dependence of morphology of SiOx nanowires on the supersaturation of Au-Si alloy liquid droplets formed on the Au-coated Si substrate; Chin. Phys. Lett.; 18 (2001) 1529.

[41]  Zhang J., Yin Z., Zhang M.S., Chen W.C.; Dielectric characteristics and layer periodic effects of ferroelectric superlattice BaTiO3/SrTiO3; Chin. Phys. Lett.; 18 (2001) 1271.

[42]  Zhang M.S., Yin Z., Chen Q., Zhang W.F., Chen W.C.; Study of structure and photoluminscent properties in Barium Titanate nano-crystals synthesized by hydrothermal process ; Solid State Commun.; 119 (2001) 659.

[43]  Zhang Y.L., Zhang S.H., Lu K.Q.; The ER behavior of surface modified complex strontium titanate suspensions; Int. J. Mod. Phys. B; 15 (2001) 596.

[44]  Zhang Z. and S.T. Lee; On the study of silicon nano-wires self-assembled as particles; Chin. Phys. Lett.; 10 (2001) S111.

[45]  Zhang Z.L., Guo L., Wang W.D.; Synthesis and characterization of antimony oxide nanoparticles; J. Mater. Res.; 16 (2001) 803.

[46]  Zhang Z.L., Xu T.D., Lin Q.Y., YU Z.S.; A new interpretation of temper embrittlement dynamics by non-equilibrium segregation of phosphor in steels; J. Mater. Sci.; 36 (2001) 2055.

[47]  Zhang Z., Fan X.H., L. Xu, C. S. Lee, and S. T. Lee; Morpholgy and growth mechanism study of self-assembled silicon nano-wires by thermal evaporation method; Chem. Phys. Lett.; 337 (2001) 18.

[48]  Zhang Z.T., Han Y., Xiao F. S., Qiu S. L., Zhu L., Wang R.W., Yu Y., Zhang Z., Zou B.S., Wang Y.Q., Sun H.P., Zhao D.Y., Wei Y.; Mesoporous aluminosilicates with ordered hexagonal structure, strong acidity and extraordinary hydrothermal stability at high temperatures; J. Am. Chem. Soc.; 123 (2001) 5014.

[49]  Zhou W., Ma X.C., Yuan Z.Y, Wang E.G.; HRTEM surface characterization of nanoscale solid-state materials; ; Surf. Interface Anal.; 32 (2001) 236.

[50]  Zhu Z.H., Ge P.W., Huo C.R., Chen D., Li C.R.; Stable shape of crystal growth face in crystallization from solution under microgravity; J. Cryst. Growth; 224 (2001) 155.

Soft Matter

[1]   A.V.Soldatov, I.E.Shtekhin, Li C.X., Lu K.Q., Li H.; Electronic structure of RbCl and Rb2ZnCl4 in the solid and liquid states: analysis of local fine structure of the x-ray absorption; Phys. of Solid State; 43 (2001) 19.

[2]   Chen W., Hou M.Y., Jiang Z.H., Lu K.Q., Lam L.; Intermittent Granular Flow in the Presence of an Electric Field; Euro. Phys. Lett.; 56 (2001) 536.

[3]   Chen W., Hou M.Y., Lu K.Q., Jiang Z.H., Lam L.; Granular flows through vertical pipes controlled by an electric field; Phys. Rev. E; 64 (2001) 061305.

[4]   Dong L.F., Li X.C., Yin Z.Q., Qian S.F., Ouyang J.T., Wang L.; Self-organized filaments in dielectric barrier discharge in air at atmospheric pressure; Chin. Phys. Lett.; 18 (2001) 1380.

[5]   Fang T.Z., Wang L., Jiang D.M., Zhang H.X.; Helicon discharge using Nagoya type III antanna; Chin. Phys. Lett.; 18 (2001) 1098.

[6]   Gu Y.X., Liu Y.D., S.E. Ealick, Fan H. F.; Direct-method-aided phasing of MAD data; Acta Cryst. Bio. Cryst.; 57 (2001) 250.

[7]   Jiang N., Qian S.F., Wang L., Zhang H.X.; Localized material growth by a dielectric barrier discharge; Thin Solid Film; 390 (2001) 119.

[8]   Jiang Z.H., Shen Z.Y., Lu K.Q.; Dipole images in conducting-particle chains; J. Electrostatics; 53 (2001) 53

[9]   Kang J.Y.; Nanopipes in undoped AlGaN epilayers; J. Cryst. Growth; 229 (2001) 58.

[10]  Khorshid Pejman, Wang L., Yang X.Z., Feng C.H., Zhang P.Y., Qi X.Z., Rouhani Shahriar, Rahimitabar M.Reza, Aghamir M.Farzin, Ghoranneviss Mahnud, Hantezadeh M.Reza; Magnetohydrodynamic activity during limiter biasing on the Ct-6B tokamak; Chin. Phys. Lett.; 18 (2001) 393.

[11]  Li C.X., Lu K.Q.; Electronic structure of condensed matter probed by XANES; J. China Univ., Science and technology; 31 (2001) 253.

[12]  Li J.H.; Evolution of island-pit surface morphologies of InAs epilayers grown on GaAs (001) substrates; J. Appl. Phys.; 89 (2001) 3700.

[13]  Liu B., Liu C.Z., Cheng D.J., He R., Yang S.Z.; Pulsed high energy density plasma processing silicon surface; Thin Solid Film; 390 (2001) 149.

[14]  Liu B., Liu C.Z., Cheng D.J., Zhang G.L., He R., Yang S.Z.; A new method for inner surface modification by plasma source ion implantation; NIM B; 184 (2001) 644.

[15]  Liu B., Liu C.Z., Yang S.Z.; Inner surface coating of TiN by grid-enhanced plasma source ion implantation technique; J. Vac. Sci. Tech.; 19 (2001) 2958.

[16]  Liu C.X.; Micro-structural analysis of Yba2Cu3O7-x thin films grown on different substrates by X-ray techniques; Physica C; 361 (2001) 262.

[17]  Liu C.X.; Microstructural characterization of spin-valve multilayers by X-ray anomalous diffraction technique; Modern Phys. Lett. B; 15 (2001) 291.

[18]  Lu K.Q., Lan Y.C., Men S.Q., Xu X.Y., Zhao X.P., Xu S.J.; Dependence of the shear stress on particle properties in electrorheological fluids; Int. J. Mod. Phys. B; 15 (2001) 938.

[19]  Luo G.M.; Variable wavelength grazing incidence x-ray reflectivity measerement of structural changes on annealing Cu/NiFe multilayers; Phys. Rev. B; 64 (2001) 245404.

[20]  Luo G.M.; X-ray reflection anomalous fine structure analysis of the stability of permaloy/copper multilayers; J. Mag. Mag. Mat.; 226 (2001) 1728.

[21]  Men S.Q., Xu X.Y., Lan Y.C., Xu S.J., Lu K.Q.; The electrostatic interaction between coated particles in electrorheological fluids; Int. J. Mod. Phys. B; 15 (2001) 788.

[22]  Sun G., Chu Q.J.; Phase diagram of the two-dimensional model with dipole interaction; Chin. Phys. Lett.; 18 (2001) 491.

[23]  Tang W.H., Liu X.C., Mai Z.H.; Excellent buffer layer for growing high-quality Y-Ba-Cu-O thin films; J. Mater. Res.; 16 (2001) 2864.

[24]  Wang B., Sun C.C., Yang T.H., Ye P., Chang J.Y.; Anisotropic self-diffraction under Bragg mismatching; Appl. Phys. B; 72 (2001) 691.

[25]  Wang F., A. Hermerschmidt, P. Pogany, Dou S.X., H.J. Eichler; Enhanced performance of a mutually pumped phase-conjugation setup using two photorefractive crystals; Appl. Phys. B; 72 (2001) 755.

[26]  Wang L.; Skin effect in a dc coil of magnet during startup phase; Plasma Sci. Tech.; 3 (2001) 679.

[27]  Wang P.Y., Lu W.P., Yu D.J., Robert G. Harrison; Excitability and pattern formation in a liquid crystal Fabry-Perot interferometer; Opt. Commun.; 189 (2001) 127.

[28]  Wang Q., Chen X.M., Lu K.Q.; Concentration and temperature dependence of the electrical resistivity of liquid gallium-antimony alloys; J. Phys.: Condens. Matter; 13 (2001) 1.

[29]  Wang Q.,Lu K.Q; Anomalous temperature dependence of the electrical resistivity of molten Sb; Chin. Sci. Bull.; 46 (2001) 1431.

[30]  Xie J.K., Liu Y., Wen Y.Z., Wang L.; Overview on the progress of tokamak experimental research in China; Nucl. Fusion; 41 (2001) 1495.

[31]  Xie P., Imtiaz A. Taj, Teruhito Mishima; Origin of temporal fluctuation in the photorefractive effect; J. Opt. Soc. Am. B; 18 (2001) 479.

[32]  Xiong G.; Characterization of CoCrFeO4 nanocrystals prepared by a sol-gel method; Chin. Phys. Lett.; 18 (2001) 692.

[33]  Xiong G.; Magnetic properties of Ba4Co2Fe36O60 nanocrystals prepared throuth a sol-gel method; Solid State Commun.; 118 (2001) 53.

[34]  Xiong G.; Preparation and magnetic properties of CoCrFeO4 nanocrystals; Chem. Mater.; 13 (2001) 1943.

[35]  Xu M.; Study of Ni80Fe20/Fe50Mn50 superlattice microstrucytures by TEM and X-ray diffraction; J. Phys. Condens. Matter; 13 (2001) 2891.

[36]  Xu M.; Synchrotron X-ray study on structures of Ni80Fe20/Cu superlattices; Chin. Phys. Lett.; 18 (2001) 405.

[37]  Xu M.; What cause the broad modulation in X-ray reflectivity curves? J. Vacuum Sci. Technol. A; 19 (2001) 2194.

[38]  Yang C.L., Qin J.G., Yang Q.G., Si J.H., Wang S.B., Wang Y.G., Ye P.X., Ye C.; Third-order nonlinear optical properties of new square planar complexes with donor-metal-acceptor structure; Synthetic Metals; 121 (2001) 1491.

[39]  Yang C.L., Qin J.G., Zhao J., Si J.H., Dong F.Z., Wang Y.G., Ye P.X., Ye C.; Synthesis and third-order optical nonlinearity of some salts comprising planar pomplex cation and anion; Synthetic Metals; 120 (2001) 789

[40]  Zhan X.W., Liu Y.Q., Zhu D.B., Liu X.C., Xu G., Ye P.X.; Large third-order nonlinear optical response of a conjugated copolymer consisting of 2,5-diethynylthiophene and carbazole units; Chem. Phys. Lett.; 343 (2001) 493.

[41]  Zhang P.Y., Wang L.; Effects of magnetic shear on current penetration in a tokamak; Chin. Phys. Lett.; 18 (2001) 802.

[42]  Zhao Y.N.; Hydrothermal synthesis, structure and catalytic property of a novel open-framework oxovanadium arsenate; J. Mater. Chem.; 11 (2001) 1553.

[43]  Zhao Y.N.; Synthesis and structure of an open-framework zinc phosphate with two-dimensional intersecting channels; Chem. Lett.; (2001) 362.

Nano

[1]     Cao Y.G., Chen X.L., Lan Y.C., Li J.Y., Zhang Y., Yang Z., Liang J.K.; Synthesis and Raman characteristics of AlxGa1-xN alloy nanocrystalline solids through ammonothermal routes; Appl. Phys. A; 72 (2001) 125.

[2]     Chen X.L., Lan Y.C., Li J.Y., Cao Y.G., He M.; Radial growth dynamics of nanowires; J. Cryst. Growth; 222 (2001) 586.

[3]     Chen X.L., Li J.Y., Lan Y.C., Cao Y.G.; Morphological stability of a nanowire during growth process; Modern Phys. Lett. B; 15 (2001) 27.

[4]     Chen X.L., Tu Q.Y., He M., Dai L., Wu L.; The bond ionicity of MB2 (M=Mg, Ti, V, Cr, Mn, Zr, Hf, Ta, Al and Y); J. Phys.: Condens. Matter; 13 (2001) L723.

[5]     Ci L.J., Xie S.S.; Crystallization behavior of the amorphous carbon nanotubes prepared by the CVD method; J. Cryst. Growth; 233 (2001) 823.

[6]     Fu Y., M. Willander, and Wang T.H.; Designing two-dimensional electron gases for single electron transistor application; J. Appl. Phys.; 89 (2001) 1759.

[7]     Fu Y., M. Willander, and Wang T.H.; Etching trenches to effectively create electron quantum wires for single electron transistor applications; Appl. Phys. Lett.; 78 (2001) 3705.

[8]     Gao H.J., Shi D.X., Zhang H.X., Lin X.; Ultrahigh data density storage with scanning tunneling microscopy; Chin. Phys.; (2001) 179.

[9]     He H.P., Huang X.J., Chen L.Q.; An effective way to detect the secondary phase in Sr-doped LaInO3; J. Phys. and Chem. of Solids; 62 (2001) 701.

[10]   He M., Chen X.L., Lan Y.C., Li H., Xu Y.P.; Ab initio structure determination of new compound LiAlB2O5; J. Solid State Chem.; 156 (2001) 181.

[11]   He M., Chen X.L., Zhou T., Hu B.Q., Xu Y.P., Xu T.; Crystal structure and infrared spectra of Na2Al2B2O7; J. Alloys & Comp.; 327 (2001) 210.

[12]   He M., Li H., Chen X.L., Xu Y.P. and Xu T.; Li2AlB5O10; Acta Crystal.C; 57 (2001) 1010.

[13]   He S.T., Yao J.N., Xie S.S., Pang S.J., Gao H.J.; Superlattices of silver nanoparticles passivated by mercaptan; J. Phys. D: Appl. Phys.; 34 (2001) 3425.

[14]   He S.T., Yao J.N., Jiang P., Shi D.X., Zhang H.X., Xie S.S., Pang S.J., Gao H.J.; Formation of silver nanoparticles and self-assembled two-dimensional ordered superlattice; Langmuir; 17 (2001) 1571.

[15]   He S.T., Yao J.N., Xie S.S., Pang S.J., Gao H.J.; Investigation of passivated silver nanoparticles.; Chem. Phys. Lett.; 343 (2001) 28.

[16]   Hu B.Q., Wang X.M., Zhou T., Zhao Z.Y., Wu X., Chen X.L.; Transmittance and refractive index of the Lanthanum strontium aluminium tantalum oxide crystal; Chin. Phys. Lett.; 18 (2001) 278.

[17]   Hu B.Q., Zhang Y. Z., Wu X., Chen X.L.; Defects in large single crystals Nd:YVO4; J. Cryst. Growth; 226 (2001) 511.

[18]   Hu H.F., Li Y.B., Zhou W.Y., Tang D.S.; Electronic properties of carbon nanotubes with a pentagon-heptagon pair defect; Chin. Phys.; 10 (2001) 531.

[19]   Hu Z.N., Wang J.Z., Li B.Z.; A double quantum well model of the exchange coupling in Fe/ZnSe/Fe; J. Phys.: Condens. Matter; 13 (2001) L215.

[20]   Jiang P, Xie S.S., Yao J.N., Pang S.J. and Gao H.J.; The stability of self-organized 1-nonanethiol-capped gold nanoparticle monolayer; J. Phys. D: Appl. Phys.; 34 (2001) 2255.

[21]   Jiang P., Liu Z.F., Cai S.M.; Electron transport on a single CdS nanocrystal formed on self-assembled monolayer at room temperature; Surface Science Letters; 486 (2001) L507.

[22]   Jiang P., Liu Z.F., Cai S.M.; Single-electron tunneling in a single PbS nanocrystal nucleated on 11-mercaptoundecanoic acid self-assembled monolayer at room temperature; J. Appl. Phys.; 90 (2001) 2039.

[23]   Jiang P., Xie S.S., Yao J.N., He S.T., Zhang H.X., Shi D.X., Pang S.J., Gao H.J.; Two-dimensional self-organization of 1-nonanethiol-capped gold nanoparticls; Chin. Sci. Bull.; 46 (2001) 996.

[24]   Li H., Shi L.H., Lu W., Huang X.J., Chen L.Q.; Studying on capacity loss and fading of nanosized SnSb alloy anode for Li ion batteries; J. Electrochem. Soc.; 148 (2001) A915.

[25]   Li H.W. and Wang T.H.; Hysteresis in current transport in a GaAs diode containing self-assembled inAs quantum dots; Appl. Phys. A; 73 (2001) 615.

[26]   Li H.W. and Wang T.H.; Hysteresis in electronic transport through an ensemble of InAs self-assembled quantum dots; Physica B; 301 (2001) 169.

[27]   Li H.W. and Wang T.H.; Memory effect and tunneling effect in metal semiconductor metal contacts; Phys. Low-dim. Struct.; 6 (2001) 129.

[28]   Li H.W. and Wang T.H.; Resonant tunneling through energy states of InAs self-assembled quantum dots; Physica B; 304 (2001) 107.

[29]   Li J.Y., Chen X.L., Li H., He M., Qiao Z.Y.; Fabrication of zinc oxide nanorods; J. Cryst. Growth; 233 (2001) 5.

[30]   Li J.Y., Chen X.L., Qiao Z.Y, He M. and Li H.; Large-scale synthesis of single-crystalline β-Ga2O3 nanoribbons, nanosheets and nanowires; J. Phys.: Condens. Matter; 13 (2001) L937.

[31]   Li J.Y., Chen X.L., Qiao Z.Y., Cao Y.G., Lan Y.C.; Photoluminescence spectrum of straight GaN nanowires; J. Mater. Sci. Lett.; 20 (2001) 757.

[32]   Li J.Y., Chen X.L., Qiao Z.Y., Cao Y.G., Li H.; Synthesis of GaN nanotubes; J. Mater. Sci. Lett.; 20 (2001) 1987.

[33]   Li J.Y., Chen X.L., Wei Z.F., Qiao Z.Y.; Morphologies of ZnO Nanorods; Chin. Phys. Lett.; 18 (2001) 1527.

[34]   Li Y.B., Xie S.S., Wei B.Q., Lian G.D., Zhou W.Y., Tang D.S., Zou X.P., Liu Z.Q., Wang G.;     Aligned small alpha-SiC nanorods on beta-SiC particles grown in an arc-discharge; Solid State Commun.; 119 (2001) 51.

[35]   Li Y.B., Xie S.S., Zhou W.Y., Tang D.S., Liu Z.Q., Zou X.P., Wang G.; Small diameter carbon nanotubes synthesized in an arc-discharge; Carbon; 39 (2001) 1429.

[36]   Li Y.B., Xie S.S., Zhou W.Y., Tang D.S., Zou X.P., Liu Z.Q., Wang G.; Nanographite ribbons grown from a SiC arc-discharge in a hydrogen atmosphere; Carbon; 39 (2001) 626.

[37]   Li Y.B., Xie S.S., Zou X.P., Tang D.S., Liu Z.Q., Zhou W.Y., Wang G.; Large-scale synthesis of beta-SiC nanorods in the arc-discharge; J. Cryst. Growth; 223 (2001) 125.

[38]   Li Z.J., Chen X.L., Li H.J., Tu Q.Y., Yang Z. Xu Y.P., Hu B.Q.; Synthesis and Raman scattering of GaN nanorings, nanoribbons and nanowires; Appl. Phys. A; 72 (2001) 629.

[39]   Liang H.Y., Li H., Wang Z.X., Wu F., Chen L.Q. and Huang X.J.; New binary room-temperature molten salt electrolyte based on urea and LiTFSI; J. Phys. Chem. B; 105 (2001) 9966.

[40]   Liu B., Zhuang Q.D., S. F. Yoon, Dai J.H., Kong M.Y., Zeng Y.P., Li J.M., Lin L.Y., Zhang H.J.; Properties and turning of intraband optical absorption in InxGa1-xAs/GaAs self-assembled quantum dot superlattice; Int. J. Mod. Phys. B; 15 (2001) 1959.

[41]   Liu C, Zou B.S., Adam J. Rondinone, and Z. John Zhang; Sol-Gel synthesis of free-standing ferroelectric lead zirconate Titanate nanoparticles; JACS; 123 (2001) 4344.

[42]   Liu J., Dong B.Z., Gu B.Y., and Yang G.Z.; Entirely electromagnetic analysis of microlenses without a beam-shaping aperture; Appl. Opt.; 40 (2001) 1686.

[43]   Liu J., Gu B.Y., Dong B.Z., and Yang G.Z.; Interference effect of dual diffractive cylindrical microlenses analyzed by rigorous electromagnetic theory; J. Opt. Soc. Am.; 18 (2001) 526.

[44]   Liu X.H., Wang X.H., and Gu B.Y.; Effects of extension and overlap of wavefunctions on plasmon modes in symmetric double-quantu-well structures; Commun. Theo. Phys.; 36 (2001) 227.

[45]   Liu X.H., Wang X.H., and Gu B.Y.; Effects of tunneling coupling on plasmon modes in asymmetric double-quantum-well structures; Eur. Phys. J. B; 24 (2001) .37.

[46]   Liu X.H., Wang X.H., Gu B.Y.; Effects of inter-well coupling on plasmon modes in symmetric double square quantum well structures; Phys. Rev. B; 64 (2001) 195322.

[47]   Liu Z.Q., Xie S.S., Sun L.F., Tang D.S., Zhou W.Y., Wang C.Y., W. Liu, Li Y.B., Zou X.P., Wang G.; Synthesis of alpha-SiO2 nanowires using Au nanoparticle catalysts on a silicon substrate; J. Mater. Res.; 16 (2001) 683.

[48]   Liu Z.Q., Xie S.S., Zhou W.Y., Sun L.F., Li Y.B., Tang D.S., Zou X.P., Wang C.Y., Wang G.; Catalytic synthesis of straight silicon nanowires over Fe containing silica gel substrates by chemical vapor deposition; J. Cryst. Growth; 224 (2001) 230.

[49]   Liu Z.Q., Zhou W.Y., Sun L.F., Tang D.S., Zou X.P., Li Y.B., Wang C.Y., Wang G., Xie S.S.; Growth of amorphous silicon nanowires; Chem. Phys. Lett.; 341 (2001) 523.

[50]   Pan Z.W., FCK Au, Lai H.L., Zhou W.Y., Sun L.F., Liu Z.Q., Tang D.S., CS Lee, ST Lee, Xie S.S.; Very low-field emission from aligned and opened carbon nanotube arrays; J. Phys. Chem. B; 105 (2001) 1519.

[51]   Shi D.X., Ba D.C., Pang S.J., Gao H.J.; Nanometer-scale recording with transition time at nanosecond; Appl. Surf. Sci.; 182 (2001) 64.

[52]   Shi D.X., Song Y.L., Zhu D.B., Zhang H.X., Jiang P., Xie S.S., Pang S.J., and Gao H.J.; Recording at a nanometer scale on p-nitrobenzonnitrile thin films by scanning tunneling microscopy; Adv. Mater.; 13 (2001) 1103.

[53]   Shi L.H., Li H., Wang Z.X., Huang X.J., Chen L.Q.; Nano-SnSb alloy deposited on MCMB as an anode materials for lithium ion batteries; J. Mater. Chem.; 11 (2001) 1502.

[54]   Song Y.T., Wang C.Q., Wu X.; Growth of Bi3-2xFe5-x-yInyVxO12 crystals by top seed solution growth (TSSG) technique; J. Cryst. Growth; 233 (2001) 619.

[55]   Song Y.T., Wu X., Hu B.Q., Ni D.Q.; Growth of single crystals of YB2 by a flux method; J. Cryst. Growth; 223 (2001) 111.

[56]   Song Y.T., Zhang S.Y., Wu X.; Oxidation and electronic-specific heat of YB2; J. Alloys & Comp.; 322 (2001) L14.

[57]   Sun L.F., Liu Z.Q., Ma X.C., Tang D.S., Zhou W.Y., Zou X.P., Li Y.B., Lin J.Y., Tan K.L., Xie S.S.; Growth of carbon nanofibers array under magnetic force by chemical vapor deposition; Chem. Phys. Lett.; 336 (2001) 392.

[58]   Sun L.F., Liu Z.Q., Ma X.C., Zhong Z.Y., Tang S.B., Xiong Z.T., Tang D.S., Zhou W.Y., Zou X.P., Li Y.B., Tan K.L., Xie S.S., Lin J.Y.; Growth of carbon nanotube arrays using the existing array as a substrate and their Raman characterization; Chem. Phys. Lett.; 340 (2001) 222.

[59]   Tu Q.Y., Chen X.L., Ma B.K., Zhao Z.X., Xu Y.P., Hu B.Q.; Study on the structure and superconductivity of La2CuO4+δchemically oxidized by NaClO at 50℃; Supercond. Sci. Technol.; 14 (2001) 517.

[60]   Wang Q., Li H., Chen L.Q. and Huang X.J.; Monodispersed hard carbon spherules with uniform nanopores; Carbon; 39 (2001) 2211.

[61]   Wang Q., Li H., Huang X.J. and Chen L.Q.; Determination of chemical diffusion coefficient of lithium ion in graphitized MCMB with potential relaxation technique; J. Electrochem. Soc.; 148 (2001) A737.

[62]   Wang R.Z., Wang X.H., Gu B.Y., and Yang G.Z.; Effects of shapes and orientations of scatterers and lattice symmetries on the photonic band gap in two-dimensional photonic crystals; J. Appl. Phys.; 90 (2001) 4307.

[63]   Wang T.H. and Li H.W.; Transport through a Si single-elctron transistor; Physica B; 301 (2001) 169.

[64]   Wang T.H., Li H.W., and Zhou J.M.; Charging effect in InAs self-assembled quantum dots; Appl. Phys. Lett.; 79 (2001) 1537.

[65]   Wang T.H., Li H.W., and Zhou J.M.; Coulomb blockade oscillations of Si single-electron transistors; Chin. Phys.; 10 (2001) 844.

[66]   Wang T.H., Li H.W., and Zhou J.M.; Si single-electron transistors with in-plane point contact metal gates; Appl. Phys. Lett.; 78 (2001) 2160.

[67]   Wang T.H., Li H.W., and Zhou J.M.; Single-electron transistors for future applications; Chin. Phys.; 10 (2001) S1.

[68]   Wang W.Y., Xu Y.P., Zhang D.F., Chen X.L.; Synthesis and dielectric properties of cubic GaN nanoparticles; Mater. Res. Bull.; 36 (2001) 2155.

[69]   Wang X.H., Gu B.Y.; Nonlinear frequency conversion in 2D χ(2) photonic crystals and novel nonlinear double-circle construction; Eur. Phys. J. B; 24 (2001) 323.

[70]   Wang Z.X., Gao W.D., Huang X.J., Mo Y.J., and Chen L.Q.; Ion transport in polyacrylonitrile -based electrolytes with high LiTFSI contents; Electrochem. & Solid-State Lett.; 4 (2001) A148.

[71]   Wang Z.X., Gao W.D., Huang X.J., Mo Y.J. and Chen L.Q.; Influence of salt content on polymer dissolution and ionic association in polymer electrolyte; Electrochem. & Solid-State Lett.; 4 (2001) A132.

[72]   Wang Z.X., Gao W.D., Huang X.J., Mo Y.J. and Chen L.Q.; Spectroscopic studies on interactions and microstructures in propylene carbonate - LiTFSI flectrolytes; J. Raman Spectroscopy; 32 (2001) 900.

[73]   Wei Z.F., Che G.C., Wang F.M., Li W.C., He M., Chen X.L.; Debye temperature of MgB2; Modern Phys. Lett. B; 15 (2001) 1109.

[74]   Wei Z.F., Chen X.L., Wang F.M., Li W.C., He M., Zhang Y.; Phase relations in the ternary system SrO-TiO2-B2O3; J. Alloys & Comp.; 327 (2001) L10.

[75]   Wu C., Wang Z.X., Feng Wu, Chen L.Q. and Huang X.J.; Spectroscopic Studies on Cation-doped Spinel LiMn2O4 for Lithium Ion Batteries; Solid State Ionics; 144 (2001) 277.

[76]   Xu H.Q., Gu B.Y.; Phase properties of the transmission through a quantum dot; J. Phys.: Condens. Matter; 13 (2001) 3599.

[77]   Xu H.Q., Gu B.Y.; Symmetry and spectral statistics of the magnetic band structure of a one-dimensional surface superlattice; J. Phys.: Condens. Matter; 13 (2001) 9505.

[78]   Xu Y.P., Wang W.Y., Zhang D.F., Chen X.L.; Dielectric properties of GaN nanoparticles; J. Mater. Sci.; 15 (2001) 4401.

[79]   Yang Z., Chen X.L., Liang J.K., Lan Y.C., Xu T.; Phase relations in the MgO-Ga2O3-B2O3 system and the crystal structure of MgGaBO4; J. Alloys & Comp.; 319 (2001) 247.

[80]   Yang Z., Chen X.L., Liang J.K., Xu Y., Xu Y.P.; Synthesis and crystal structure of a new compound: CaGaBO4; J. Alloys & Comp.; 327 (2001) 215.

[81]   Yuan H.J., Xie P., Xiang J., Yu D.P., Xu J., Xie S.S., Feng S.Q.; Transport property investigation of pure and Au-doped carbon nanotubes; Solid State Commun.; 119 (2001) 573.

[82]   Zhang Q., Zhu J., Ren X., Li H.W., and Wang T.H.; Missmatch and chemical composition analysis of vertical InGaas quantum dot arrays by transmission electron microscopy; Appl. Phys. Lett.; 78 (2001) 3830.

[83]   Zhang Y., Chen X.L., Liang J.K., Cao Y.G., Xu T.; Phase relation in the system La2O3-CaO-B2O3; J. Alloys & Comp.; 315 (2001) 198.

[84]   Zhang Y., Chen X.L., Liang J.K., Xu Y., Xu Y.P.; Phase relations in the system Y2O3-CaO-B2O3; J. Alloys & Comp.; 327 (2001) 132.

[85]   Zhang Y., Gu B.Y., and Naohiro Tanno; Optical fractional derivative matched correlator; Opt. Rev.; 8 (2001) 318.

[86]   Zhang Y., Gu B.Y.; Optimal design of aperiodically poled lithium niobate crystals for multiple wavelengths parametric amplification; Opt. Commun.; 192 (2001) . 417.

[87]   Zhang Y., Liang J.K., Chen X.L., He M., Xu Y.; A structural study of Ca3La3(BO3)5; J. Alloys & Comp.; 327 (2001) 96.

[88]   Zhang Y.P., Gao H.J., Gu Y.S.; Structure studies of C3N4 thin films prepared by microwave plasma chemical vapour deposition; J. Phys. D: Appl. Phys.; 34 (2001) 299.

[89]   Zhang Y.P., Gu Y.S.; Effect of silicon impurity on carbon nitride films prepared by microwave plasma chemical vapor deposition; Mater. Sci. Engi.; 85 (2001) 38.

[90]   Zhang Y.P., Gu Y.S.; Fourier transform infrared and Raman spectroscopy studies on α- and β-C3N4 films; Philosophical Magazine Lett.; 81 (2001) 505.

[91]   Zhang Y.P., Yan L., Xie S.S., Pang S.J., Gao H.J.; Formation of ordered Ge quantum dots on the Si(111)-(7×7) surface; Appl. Phys. Lett.; 79 (2001) 3317.

[92]   Zhou W.Y., Li Y.B., Liu Z.Q., Tang D.S., Zou X.P., Gang W.; Self-organized formation of hexagonal nanopore arrays in anodic alumina; Chin. Phys.; 10 (2001) 218.

[93]   Zou B.S, Wu Z.Y., Cao L., Dai J.H., Zhang Z.B., Nie Y.X., Xie S.S.; Core-shell structure and photoluminescence of CdS Quantum Dots; Chin. Phys. Lett.; 18 (2001) 1275.

[94]   Zou B.S., Wang J.P.; Infrared vibration studies of nanometer-sized Fe2O3 arrays; Phys. Low-Dim. Struc.; 5/6 (2001) 87.

[95]   Zou B.S., Xie S.S.; Interfacial polaron in QD and luminescent porous silicon; Chin.Sci.Bull; 46 (2001) 630.

Soft Matter

[1]    A.V.Soldatov, I.E.Shtekhin, Li C.X., Lu K.Q., Li H.; Electronic structure of RbCl and Rb2ZnCl4 in the solid and liquid states: analysis of local fine structure of the x-ray absorption; Phys. of Solid State; 43 (2001) 19.

[2]    Chen W., Hou M.Y., Jiang Z.H., Lu K.Q., Lam L.; Intermittent Granular Flow in the Presence of an Electric Field; Euro. Phys. Lett.; 56 (2001) 536.

[3]    Chen W., Hou M.Y., Lu K.Q., Jiang Z.H., Lam L.; Granular flows through vertical pipes controlled by an electric field; Phys. Rev. E; 64 (2001) 061305.

[4]    Dong L.F., Li X.C., Yin Z.Q., Qian S.F., Ouyang J.T., Wang L.; Self-organized filaments in dielectric barrier discharge in air at atmospheric pressure; Chin. Phys. Lett.; 18 (2001) 1380.

[5]    Fang T.Z., Wang L., Jiang D.M., Zhang H.X.; Helicon discharge using Nagoya type III antanna; Chin. Phys. Lett.; 18 (2001) 1098.

[6]    Gu Y.X., Liu Y.D., S.E. Ealick, Fan H. F.; Direct-method-aided phasing of MAD data; Acta Cryst. Bio. Cryst.; 57 (2001) 250.

[7]    Jiang N., Qian S.F., Wang L., Zhang H.X.; Localized material growth by a dielectric barrier discharge; Thin Solid Film; 390 (2001) 119.

[8]    Jiang Z.H., Shen Z.Y., Lu K.Q.; Dipole images in conducting-particle chains; J. Electrostatics; 53 (2001) 53

[9]    Kang J.Y.; Nanopipes in undoped AlGaN epilayers; J. Cryst. Growth; 229 (2001) 58.

[10]  Khorshid Pejman, Wang L., Yang X.Z., Feng C.H., Zhang P.Y., Qi X.Z., Rouhani Shahriar, Rahimitabar M.Reza, Aghamir M.Farzin, Ghoranneviss Mahnud, Hantezadeh M.Reza; Magnetohydrodynamic activity during limiter biasing on the Ct-6B tokamak; Chin. Phys. Lett.; 18 (2001) 393.

[11]  Li C.X., Lu K.Q.; Electronic structure of condensed matter probed by XANES; J. China Univ., Science and technology; 31 (2001) 253.

[12]  Li J.H.; Evolution of island-pit surface morphologies of InAs epilayers grown on GaAs (001) substrates; J. Appl. Phys.; 89 (2001) 3700.

[13]  Liu B., Liu C.Z., Cheng D.J., He R., Yang S.Z.; Pulsed high energy density plasma processing silicon surface; Thin Solid Film; 390 (2001) 149.

[14]  Liu B., Liu C.Z., Cheng D.J., Zhang G.L., He R., Yang S.Z.; A new method for inner surface modification by plasma source ion implantation; NIM B; 184 (2001) 644.

[15]  Liu B., Liu C.Z., Yang S.Z.; Inner surface coating of TiN by grid-enhanced plasma source ion implantation technique; J. Vac. Sci. Tech.; 19 (2001) 2958.

[16]  Liu C.X.; Micro-structural analysis of Yba2Cu3O7-x thin films grown on different substrates by X-ray techniques; Physica C; 361 (2001) 262.

[17]  Liu C.X.; Microstructural characterization of spin-valve multilayers by X-ray anomalous diffraction technique; Modern Phys. Lett. B; 15 (2001) 291.

[18]  Lu K.Q., Lan Y.C., Men S.Q., Xu X.Y., Zhao X.P., Xu S.J.; Dependence of the shear stress on particle properties in electrorheological fluids; Int. J. Mod. Phys. B; 15 (2001) 938.

[19]  Luo G.M.; Variable wavelength grazing incidence x-ray reflectivity measerement of structural changes on annealing Cu/NiFe multilayers; Phys. Rev. B; 64 (2001) 245404.

[20]  Luo G.M.; X-ray reflection anomalous fine structure analysis of the stability of permaloy/copper multilayers; J. Mag. Mag. Mat.; 226 (2001) 1728.

[21]  Men S.Q., Xu X.Y., Lan Y.C., Xu S.J., Lu K.Q.; The electrostatic interaction between coated particles in electrorheological fluids; Int. J. Mod. Phys. B; 15 (2001) 788.

[22]  Sun G., Chu Q.J.; Phase diagram of the two-dimensional model with dipole interaction; Chin. Phys. Lett.; 18 (2001) 491.

[23]  Tang W.H., Liu X.C., Mai Z.H.; Excellent buffer layer for growing high-quality Y-Ba-Cu-O thin films; J. Mater. Res.; 16 (2001) 2864.

[24]  Wang B., Sun C.C., Yang T.H., Ye P., Chang J.Y.; Anisotropic self-diffraction under Bragg mismatching; Appl. Phys. B; 72 (2001) 691.

[25]  Wang F., A. Hermerschmidt, P. Pogany, Dou S.X., H.J. Eichler; Enhanced performance of a mutually pumped phase-conjugation setup using two photorefractive crystals; Appl. Phys. B; 72 (2001) 755.

[26]  Wang L.; Skin effect in a dc coil of magnet during startup phase; Plasma Sci. Tech.; 3 (2001) 679.

[27]  Wang P.Y., Lu W.P., Yu D.J., Robert G. Harrison; Excitability and pattern formation in a liquid crystal Fabry-Perot interferometer; Opt. Commun.; 189 (2001) 127.

[28]  Wang Q., Chen X.M., Lu K.Q.; Concentration and temperature dependence of the electrical resistivity of liquid gallium-antimony alloys; J. Phys.: Condens. Matter; 13 (2001) 1.

[29]  Wang Q.,Lu K.Q; Anomalous temperature dependence of the electrical resistivity of molten Sb; Chin. Sci. Bull.; 46 (2001) 1431.

[30]  Xie J.K., Liu Y., Wen Y.Z., Wang L.; Overview on the progress of tokamak experimental research in China; Nucl. Fusion; 41 (2001) 1495.

[31]  Xie P., Imtiaz A. Taj, Teruhito Mishima; Origin of temporal fluctuation in the photorefractive effect; J. Opt. Soc. Am. B; 18 (2001) 479.

[32]  Xiong G.; Characterization of CoCrFeO4 nanocrystals prepared by a sol-gel method; Chin. Phys. Lett.; 18 (2001) 692.

[33]  Xiong G.; Magnetic properties of Ba4Co2Fe36O60 nanocrystals prepared throuth a sol-gel method; Solid State Commun.; 118 (2001) 53.

[34]  Xiong G.; Preparation and magnetic properties of CoCrFeO4 nanocrystals; Chem. Mater.; 13 (2001) 1943.

[35]  Xu M.; Study of Ni80Fe20/Fe50Mn50 superlattice microstrucytures by TEM and X-ray diffraction; J. Phys. Condens. Matter; 13 (2001) 2891.

[36]  Xu M.; Synchrotron X-ray study on structures of Ni80Fe20/Cu superlattices; Chin. Phys. Lett.; 18 (2001) 405.

[37]  Xu M.; What cause the broad modulation in X-ray reflectivity curves? J. Vacuum Sci. Technol. A; 19 (2001) 2194.

[38]  Yang C.L., Qin J.G., Yang Q.G., Si J.H., Wang S.B., Wang Y.G., Ye P.X., Ye C.; Third-order nonlinear optical properties of new square planar complexes with donor-metal-acceptor structure; Synthetic Metals; 121 (2001) 1491.

[39]  Yang C.L., Qin J.G., Zhao J., Si J.H., Dong F.Z., Wang Y.G., Ye P.X., Ye C.; Synthesis and third-order optical nonlinearity of some salts comprising planar pomplex cation and anion; Synthetic Metals; 120 (2001) 789

[40]  Zhan X.W., Liu Y.Q., Zhu D.B., Liu X.C., Xu G., Ye P.X.; Large third-order nonlinear optical response of a conjugated copolymer consisting of 2,5-diethynylthiophene and carbazole units; Chem. Phys. Lett.; 343 (2001) 493.

[41]  Zhang P.Y., Wang L.; Effects of magnetic shear on current penetration in a tokamak; Chin. Phys. Lett.; 18 (2001) 802.

[42]  Zhao Y.N.; Hydrothermal synthesis, structure and catalytic property of a novel open-framework oxovanadium arsenate; J. Mater. Chem.; 11 (2001) 1553.

[43]  Zhao Y.N.; Synthesis and structure of an open-framework zinc phosphate with two-dimensional intersecting channels; Chem. Lett.; (2001) 362.

Condensed Matter Theory

[1]    Bai H.Y., C.Michaelsen, C.Gente, R.Bormann; Amorphization by mechanical alloying in metallic systems with positive Gibbs energy of formation; Phys. Rev. B; 63 (2001) 064202.

[2]    Bai H.Y., Lou J.L., Chen Z.J., Wang W.H.; Low temperature specific heat of bulk glassy and crystalline Zr41Ti14Cu12.5Ni10Be22.5 alloys; Appl. Phys. Lett.; 78 (2001) 2697.

[3]    Hu D.L., Pan B.C., Li J.M.; Properties of single-wall carbon nanotubes with finite lengths; Chin. Phys. Lett.; 18 (2001) 653.

[4]    Li L., Li B.Z.; Exact evolving states for a class of generalized time-dependent quantum harmonic oscilators with a moving boundary; Phys. Lett. A; 291 (2001) 190.

[5]    Liu B.G., Pu FC; The spin s quantum Heisenberg ferromagnetic models in the physical magnon theory; J. Mag. Mag. Mat.; 307 (2001) 231

[6]    Liu B.G., Schoell E; Strained growth in surfactant mediated heteroepitaxy; Vacuum; 61 (2001) 145.

[7]    Luo J.L., Zhang J., Chen Z.J., Bai H.Y., Wang Y.P., Meng J.B., Jin D., Ren Z.A., Che G.C., Zhao Z.X.; Low-temperature specific heat of superconducting MgB2; Chin. Phys. Lett.; 18 (2001) 820.

[8]    Su C.R, Li J.M.; The optimum metallic-bond scheme: A quantitative qnalysis of mass spectra of sodium clusters; Chin. Phys. Lett.; 18 (2001) 1575.

[9]    Wang J.T., Wang D.S, Kawazoe Y; Magnetic phase competing in MnAu systems; Appl. Phys. Lett.; 79 (2001) 1507.

[10]  Wang J.T., Zhou L., Wang D.S, Kawazoe Y; Exchange interaction and magnetic phase transition in layered Fe/Au superlattices; J. Mag. Mag. Mat.; 633 (2001) 226.

[11]  Wang N.L., B.P.Clayman; Inversion of optical conductivity in Bi2Sr2CaCu2O8+d; Phys. Rev. B; 63 (2001) 052509.

[12]  Wang N.L., H.Mori, S.Tanaka, J.Dong, and B.P.Clayman; Far-infrared study of the insulator-metal transition in q-(BEDT-TTF)2RbZn(SCN)4 (BEDT-TTFºbis(ethylene -dithio)tetrathiafulvalence; J. Phys: Condens. Matter; 13 (2001) 5463.

[13]  Wang Y., P.Schlottmann; Boundary defect in a spin ladder; J. Appl. Phys.; 89 (2001) 7335.

[14]  Wang Y., P.Schlottmann; Exact solution of Heisenberg-liquid model with long-range coupling; Phys. Rev. B; 63 (2001) 134437.

[15]  Wang Y., P.Schlottmann; Kondo effect in a host with fractional statistics: Absence of Kondo logarithms; Phys. Rev. B; 64 (2001) 125113.

[16]  Wang Z.D., Chen Z.J., Duan Z.Z., Wang W.Q.; Temperature effects on properties of Bi(2223) high temperature superconducting tapes; Chin. Phys. Lett.; 18 (2001) 677.

[17]  Wu D., Liu G.L., Wu Y.Z., Loison D., Dong G.S., Jin X.F., Wang D.S; Magnetic structures of CoMn alloys; Phys. Rev. B; 63 (2001) 214403.

[18]  Xia D., Li J.M.; Relativistic Channel Theory: Abnormal fine structures of n 2D Rydberg states for alkali atoms; Chin. Phys. Lett.; 18 (2001) 1334.

[19]  Xu Y.Q., Liu B.G., Wang E. G., Wang D.S.; Formation mechanism of adatom islands on fcc(111) substrates; J. Phys. D: Appl. Phys; 34 (2001) 1137.

[20]  Ye L.H., Liu B.G., Wang D.S; Ab initio molecular dynamics study on small Carbon nanotubes; Chin. Phys. Lett.; 18 (2001) 1496.

[21]  Zhou Y.M, Gao Xin, Wang D.S; Exchange interaction and magnetic phase transition in FeRh alloy; J. Mag. Mag. Mat.; 1042 (2001) 226.

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