问答日记:Dayri 1.1.0
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使用日记软件写日记有很多优点，如：更保密、可插入图片、QQ表情，支持搜索、写完日记可以上传到网络硬盘，一百年都不怕丢失～而且你可以随时把它们打印出来，等到老了的那一天，可以坐下来慢慢回忆那些青春时代美好的日子下面是几个最棒的日记本软件，都是免费的，它们都是我辛辛苦苦在网上找了很久，下载量巨大、网友反映口碑极好，我也亲自安装使用了的，绝对是精品！喜欢的小伙伴...
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在我用过的生活服务软件里，这个问答日记:Dayri算不上是最稳定，最快的，但绝对是最特别的。
升级新版后我发现了几个小问题，并且发给问答日记:Dayri的官方人员了，下次升级应该会解决了
还是华军软件园靠谱，其它网站的问答日记:Dayri要么是版本旧，要么是下载不了
问答日记:Dayri的PC版本用着还凑合，不知道有没有手机版的，期待。
请问各位把问答日记:Dayri下载到电脑使用该怎么下啊。请帮忙,谢谢
问答日记:Dayri虽然是共享软件的,但还是有些问题,有待改进呀~
这个问答日记:Dayri要怎么用啊，我是小白，求解释
下载测试了，很好用的，很其他人口中介绍的问答日记:Dayri一样
哈哈！费劲千辛万苦终于让我找到这个问答日记:Dayri了
问答日记:Dayri在同类软件里，体积已经非常小巧了，才32.78MB
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Superconductivity
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[1]&Ao L., Wang W.H., Chen J.L., Gao S.X., Wu G.H.; Investigation on the intermartensitic transformation in Ni-Mn-G Acta Physica S 50 (.
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[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 J. Cryst. G 222 (.
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[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 (.
[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 (.
[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 (.
[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. G 227-228 (.
[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 (.
[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 (.
[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. P 8 (
[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 (
[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 (.
[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 (.
[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. P 8 (
[13]　　 Dong Q.L., Zhang J. and H. T Absorption of fs laser pulses in interaction with solid targets; Phys. Rev. E; 64 (
[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 (.
[15]　　 Fu P., Wang B., Li X., and Gao L.; Interrelation between high-order harmonic generation and above-threshold ionization; Phys. Rev. A; 64 (.
[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 (.
[17]　　 Guo D., R. R. Freeman, Gao L., Li X., Fu P., T. Edis and A. T Spin-other-orbit effect of photon modes; J. Phys.; B 34 (.
[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 (.
[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 (.
[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 (.
[21]　　 H Lin, Chen L.M., Zhang J., Zhang P., WB F Self-modulation of an intense laser beam in near-critical homogeneous plasmas; Phys. P 8 (.
[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 (.
[23]　　 Jiang A.Q., Chen Z.H., 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 (.
[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 (.
[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 A 32 (.
[28]　　 Jin K.J., Wen W.J.; The evolution of bending chains in magnetorheological fluid at external field; Phys. Lett. A; 286 (.
[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 (.
[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. M 13 (.
[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 (.
[32]　　 Li Y.J. and Zhang J.; Hydrodynamic characteristics of transient Ni-like x-ray lasers; Phys. Rev. E; 63 (
[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 (.
[34]　　 Li Y.J., Zhang J., Teng A.P.; An analytic model for transient collisional x-ray lasers; Chin. Phys.; 10 (.
[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 C 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 Z Hot electrons in the interaction of femtosecond laser pulses with foil targets at a moderate laser intensity; Phys. Rev. E; 64 (
[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 (.
[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 (.
[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 (.
[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 (
[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 (
[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 (.
[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 (.
[46]　　 Ni P.G., Dong P., Cheng B.Y., Li X.Y., and Zhang D.Z.; Synthetic SiO2 opals; Adv. Mater.; 13 (.
[47]　　 Siu G.G., Lee C.M., Lu Y.L.; Magnons and acoustic phononsin Y3-xBixFe5O12; Phys. Rev. B; 64 (.
[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 (.
[49]　　 Teng H., Xia J.F., Wei Z.Y., Zhang J.; An efficient chirped-pulse multi-pass preamplifier; J. Korean Phys. S 39 (
[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. F Connection between high-harmonic generation and above-threshold ionication; Chin. Phys. Lett.; 18 (.
[52]　　 Wang B., Li X., Gao L., Fu P., Guo D., R. R. F Quantum electrodynamics basis of classical-field high-harmonic generation theory; Chin. Phys. Lett.; 18 (.
[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 (.
[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 (.
[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. G 226 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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. G 227-228 (.
[67]　　 Yang H., Zhang J., Yu W, Li Y.J., Wei Z.Y.; Long plasma channels for laser triggered lighting; Phys. Rev. E; 65 (
[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 (.
[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 (.
[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 (.
[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 (.
[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. S 39 (
[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-p Chin. J. Lasers B 10 (.
[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 (.
[76]　　 Zhang Y.Z., Luo J., Nie Y.X.; Gravitational effects of rotating bodies; Modern Phys. Lett. A; 16 (.
[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 (.
[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 (.
[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 (
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[11]　 Li S.P., Zhao S.X., Pan M.X., X.C. C Eutectic reaction and microstructural characteristics of Al(Li)-Mg2Si alloys; J. Mater. Sci.; 36 (.
[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. T Electron crystallographic image-processing investigation and super-structure deter-mination for (Pb05Sr03Cu0.2)Sr2(Ca0.6Sr0.4)Cu2Oy ; Acta Cryst.; 57 (.
[14]　 Lu L., Yi W., Zhang D.L.; 3w method for specific heat and thermal conductivity measurements; Rev. of Scientific I 72 (.
[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. M 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 (.
[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 (.
[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 (.
[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 (.
[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. M 13 (.
[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 (.
[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 (.
[24]　 Wang W.H., Fan G.J., Wang R.J., J. E Formation and properties of Zr-(Ti, Nb)-Cu-Ni-Al bulk metallic glasses; Matter. Trans., JIM; 42 (.
[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. (.
[26]　 Wang W.H., Wen P., Pan M.X., Wang R.J.; pressure induced amorphization in ZrTiCuNiBe alloy; Appl. Phys. Lett.; 79 (.
[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, (.
[28]　 Wang W.K.; Pressure effcets on elastic properties and glass transition of Zr-, Pd-based bulk metallic glasses; Matter. Trans., JIM; 42 (.
[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 (.
[30]　 Wei B.C., Wang W.H., Pan M.X.; Domain structure of hard magnetic NdAlFeCo bulk metallic glass; Chin. Sci. Bull.; 46 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
[36]　 Yu R.C., Li S.Y., Zhu J.L., Li F.Y., Zhang Z., Jin C.Q., I.G. Voigt-M Ideal n=3 phase Ca4Mn3O10 of Ruddlesden–Popper series obtained using high pressure and high temperature; J. Appl. Phys.; 90 (.
[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 (.
[38]　 Zhang Y., Pan M.X., Wang W.H.; Mie Potential and equation of state of Zr48Nb8Cu14Ni12Be18 bulk metallic glass; Chin. Phys. Lett.; 18 (.
[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 (.
[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 (.
[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 (.
[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 (.
[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 (.
Electron Microscopy
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