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石兢

鎖定
石兢,武漢大學物理科學與技術學院物理系教授、博士生導師。國務院特殊津貼獲得者、教育部跨世紀人才。1956年出生於武漢,1978年-1982年湖北大學物理系本科,獲學士學位;1988年-1994年武漢大學物理系凝聚態物理研究生,獲碩士和博士學位。1982年-1988年湖北大學物理系助教、講師;1994年,武漢大學物理系副教授、教授。1994年意大利國際理論物理中心訪問研究,1997年-1999年、2000年1-3月、2001年7-9月美國布朗大學物理系訪問副教授、教授,2004年暑假美國南加州大學訪問研究;2003年、2005年、2006、2007、2008暑假、2010寒假香港科技大學物理系訪問教授;2009年-2010年美國布朗大學/美國國家標準局中子物理實驗室訪問教授。主要學術兼職包括:教育部高等學校物理教學指導委員會委員(2007-),中國物理學會理事(2003- ),中國科學院國際材料物理中心副主任(2002- ), 湖北省暨武漢物理學會理事長(2001- )、中科院物理所學術委員會委員(2007-)、中科院武漢物理與數學所學術委員會即波普與原子分子國家重點實驗室學術委員會委員(2001- )。 [1] 
中文名
石兢
國    籍
中國
職    業
教師
職    務
前院長,博士生導師
單    位
武漢大學
職    稱
教授

目錄

  1. 1 人物經歷
  2. 2 研究方向
  3. 3 主講課程
  4. 4 主持項目
  5. 5 發表論文

石兢人物經歷

1956年出生於武漢,1978年-1982年湖北大學物理系本科,獲學士學位;1988年-1994年武漢大學物理系凝聚態物理研究生,獲碩士和博士學位。1982年-1988年湖北大學物理系助教、講師;1994年,武漢大學物理系副教授、教授。1994年意大利國際理論物理中心訪問研究,1997年-1999年、2000年1-3月、2001年7-9月美國布朗大學物理系訪問副教授、教授,2004年暑假美國南加州大學訪問研究;2003年、2005年、2006、2007、2008暑假、2010寒假香港科技大學物理系訪問教授;2009年-2010年美國布朗大學/美國國家標準局中子物理實驗室訪問教授。

石兢研究方向

主要涉及實驗與計算凝聚態物理的兩個領域
1.固體關聯電子體系自旋有序、電荷有序和軌道有序,及其相關的超導、電荷/軌道密度波、異常磁電阻行為等;
2.能源材料中高效熱電材料的設計及性能優化,強場電絕緣材料的老化與擊穿機理;

石兢主講課程

珠峯計劃弘毅班“University Physics”,電子科技專業:固體物理學(一),物理學專業:固體物理學(二)。

石兢主持項目

1國家973項目:“高效熱電轉換材料及器件的基礎研究”子課題。
2國家973項目“變電設備內絕緣時效老化機理與評估模型及預測方法”子課題。
3國家自然科學基金項目:“新型Spinel軌道有序MgTi2O4和電荷有序LiRh2O4體系的相變和電輸運”

石兢發表論文

近二十年來共發表SCI研究論文100餘篇,其中代表性50篇目錄如下:
1.Lv, HY; Liu, HJ; Pan, L,Shi J., Enhanced thermoelectric performance of (Sb0.75Bi0.25)(2)Te-3 compound from first-principles calculations.APPLIED PHYSICS LETTERS,96(14): Art. No. 142101 APR 5 (2010)
2.Yue Zhang, Fang Dong, Yong Liu, Chunlong Fei, Chunxu Pan, Di Yin, Rui Xiong, Jing Shi,Synthesis and exchange bias effect of CoFe2O4/CoO composite ceramicsMaterials Chemistry and Physics124(2010) 1034–1038
3.Yue Zhang, Zhi Yang, Di Yin, Yong Liu, ChunLong Fei, Rui Xiong,Jing Shi, GaoLin Yan,Composition and magnetic properties of cobalt ferrite nano-particles prepared by the co-precipitation method,Journal of Magnetism and Magnetic Materials322(2010) 3470–3475
4.Yong Liu, Changzheng Li, Junfeng Wang, Di Yin, Jing Shi, Rui Xiong,Thermal transport properties and electronic structure of W-doped rubidium blue bronzes Rb0.3Mo1-xWxO3(x=0, 0.001, 0.003, 0.005),Physica B,405(2010) 2857-2862
5.Yue Zhang, Chunlong Fei, Yong Liu, Rongjuan Wang, Gaolin Yan, Rui Xiong, andJing Shi,The Effect of Surface Modification on the Magnetic Properties of CoFe2O4Nano-Particles Synthesized by the Hydrothermal Method,JNanoscience and Nanotechnology,10(2010) 6395-6399
6.劉雍,周睿,李靖,張悦,熊鋭,尹鏑,湯五豐,石兢,尖晶石結構自旋有序CaTi2O4單晶生長和磁化率特性研究,物理學報(ACTA PHYSICA SINICA)59(8)(2010): 5620-5625
7.程莉,汪麗莉,蒲十週,胡妮,張悦,劉雍,魏偉,熊鋭,石兢,磁性和非磁性元素摻雜的自旋梯狀化合物Sr14(Cu0.97M0.03)24O41(M = Zn, Ni, Co)的結構和電輸運性質,物理學報(ACTA PHYSICA SINICA)59(2)(2010): 1155-1162
8.袁慧,尹鏑,湯徵,劉雍,熊鋭,石兢,從自旋冰到自旋液態的渡越—結構與磁性質的演化,物理學報(ACTA PHYSICA SINICA)59(2010)2073-2077
9.Zhu, BP; Zhou, QF;Shi, J; Self-separated hydrothermal lead zirconate titanate thick films for high frequency transducer applications. APPLIED PHYSICS LETTERS,94(10): . No. 102901 ( 2009)
10.Zhu, BP; Li, DD; Zhou, QF, Shi J.. Piezoelectric PZT thick films on LaNiO3 buffered stainless steel foils for flexible device applications.JOURNAL OF PHYSICS D-APPLIED PHYSICS,42(2): 025504 (2009)
11.Di Yin, Changzhen Li, Junfeng Wang, Rui Xiong,Jing Shi,Congzhi Bi, JiYun Ma, XiangGang Qiu,Polarized infrared reflectivity study in charge density wave conductorTl0.3MoO3,J Physics and Chemistry of Solids70(2009) 249–253
12.W Wei, Z Y Wang, L L Wang, H J Liu, R Xiong,J Shi, H Liand X F Tang,Electronic structure and transport coefficients of binary skutterudite antimonide,J. Phys. D: Appl. Phys.42(2009): 115403 (5pp)
13.L. L. Wang, L. Miao, Z. Y. Wang, W. Wei, R. Xiong, H. J. Liu,J. Shi,and X. F. Tang,Thermoelectric performance of half-Heusler compounds TiNiSn and TiCoSb,J Appl. Phys.105, (2009)013709
14.C Ma, H X Yang, L J Zeng, Y Zhang, L L Wang, L Chen, R Xiong,J Shiand J Q Li,Structural modulation and hole distribution in Sr14−xCaxCu24O41J. Phys.: Condens. Matter21(2009): 215606 (7pp)
15.Shen D W, Zhang Y, Yang L X, Wei J, Ou H W, Dong J K, Xie B P, He C, Zhao J F, Zhou B, Arita M, Shimada K, Namatame H, Taniguchi M,Shi J,Feng D L, Primary Role of the Barely Occupied States in the Charge Density Wave Formation of NbSe2,PHYS REV LETT,101:226406(2008)
16.Wu Y, An M, Xiong R,Shi J,Zhang Q M,Raman scattering spectra in the normal phase of 2H–NbSe2,J. Phys. D: Appl. Phys.41: 175408 (2008)
17.Zhu B P,Wu D W,Zhou Q F,Shi J, Shung K K,Lead zirconate titanate thick film with enhanced electrical properties for high frequency transducer applications,Applied Physics Letters93: 012905(2008)
18.汪麗莉,熊鋭,魏偉,胡妮,林穎,朱本鵬,湯五豐,餘祖興,湯徵,石兢,缺氧條件下準一維自旋梯狀結構化合物(Sr1-xCax)14Cu24O41-δ的磁化率特性研究,物理學報,57: 4334 (2008)
19.Yang HX, Zhu BP, Zeng LJ,Shi J, et al.Structural modulation in the orbitally induced Peierls state of MgTi2O4,JOURNAL OF PHYSICS-CONDENSED MATTER,20: 275230 (2008)
20.Liu HJ, Wen YW, Miao L,Shi J.Isomorphous substitution of AlPO4-5 Adensity functional study,APPLIED PHYSICS LETTERS,92:143115(2008)
21.Wang DL, Liu W, Xiao QM,Shi Jet al.Embedded metal-wire nanograting and its application in an optical polarization beam splitter/combiner,APPLIED OPTICS,47:312-316 (2008)
22.Peng SL, Zhang MY, Niu XZ,Shi Jet al.Magnetically responsive elastic microspheres,APPLIED PHYSICS LETTERS,92:012108 (2008)
23.Wang JF, Deng H, Li YD,Shi J,.Large grain-boundary magnetoresistance in MnFe2O4 nanoparticle compact,JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 320:227-230 (2008)
24.黃平,湯徵,石兢等,場誘導下自旋冰系統[111]方向磁相變過程的蒙特卡洛模擬,低温物理學報,30(4):303(2008)
25.Fabrication and enhanced magnetoresistance of SiO2-coated Fe3O4nanosphere compact,Wang, Junfeng;Jing Shi, ,Appl. Phys. Lett.,90, 213106 ( 2007)
26.Novel mechanism of a charge density wave in a transition metal dichalcogenide, D.W.Shen, B.P.Xie, J.F.Zhao, L.X.Yang, L. Fang,J.Shi, R.H.He, D.H.Lu, H.H.Wen,D.L.Feng,Phys.Rev.Lett.,99216404 (2007)
27.Electronic structure and transport properties of K-doped blue bronze Rb0.15K0.15MoO3,Wang, Junfeng;Jing. Shi,MATERIALS LETTERS61:5067 (2007)
28.Preparation of Polycrystalline Singe-phase K0.3MoO3by Hot Isostatic Pressing Sintering,Junfeng WANG,Jing SHI, ,J Mater. Sci. Technol.,23: 633 (2007)
29.Microscopic evidence of dimer breaking up in CuO2 chain for Ca-substituted Sr14Cu24O41 compounds,J Wang,; HM Zou,Jing Shi,J. Phys:-Condens Matter19:196224 (2007)
30.Effect of Co substitution on magnetic properties of Sr14Cu24O41,Ying Lin, Rui Xiong, Ni Hu, Lili Wang, Zuxing Yu, Wufeng Tang,Jing Shi,PhysicaB400,93 (2007)
31.Dynamical magnetic properties of the spin ice crystal Dy2Ti2O7,Jing Shi,J MAGNETISM AND MAGNETIC MATERIALS310: 1322 (2007)
32.Temperature dependence of the second threshold field for rubidium blue bronze Rb0.3MoO3, Xiong R., Li DH., Wang J F., L. CZ., Tang WF,J. Shi.Solid State Commun.142:251 (2007)
33.Synthesis of MgTi2O4by spark plasma sintering, Zhu BP, Tang Z, zhao LH, Wang LL, Li CZ, Yin D, Yu ZX, Tan WF, Xiong RJ. Shi,Mater. Lett.61:578 (2007)
34.Low-temperature specific heat of the quasi-two-dimensional charge-density wave compound KMo6O17,Wang, JF; Xiong, R; Yin, D;J. Shi,.Phys.Rev.,B,73193102 (2006)
35.Optical Study: Evidence for Orbital-Peierls State. J.Zhou, N.L.Wang, G.Li, L.J.Luo, Y.C.Ma, D.Wu, B.P.Zhu, Z.Tang, J. Shi,,Phys. Rev.B74,245102 (2006)
36.Doping effect on electronic transport properties of Sr-14(Cu1-yMy)(24)O-41 (M = Zn, Ni),H. Xie,; N. Hu,; L. Wang,;J.Shi.PHYSICA B-CONDENSED MATTER,381: 168 (2006)
37.Specific heat and critical behavior of Tl0.3MoO3 near the Peierls phase transition, Wang, JF; Xiong, R; Li,CZ; J.Shi,.Solid State Common.,139: 323 (2006)
38.Modulation effect of transverse currents on the switch and hysteresis characteristics in blue bronze Rb0.3MoO3Li CZ, Yin D, Li DH, Tang Z, Wang JF, Xiong R,Shi J, Tian DCSolid State Common.140: 369 (2006)
39.Growth of high quality and large-sized Rb0.3MoO3 single crystals by molten salt electrolysis methodWang, JF; Xiong, R; Yi, F;J.Shi.,JOURNAL OF SOLID STATE CHEMISTRY,178: 1440 (2005)
40.Single crystal T0.3MoO3 growth by electrolytic reduction method of a T1(2)CO(3)-MoO3 melts,Li, CZ; Xiong, R; Yin, D;J.Shi.JOURNAL OF CRYSTAL GROWTH,285: 81 (2005)
41.Studyon High-Temperature Performances of 1.3-μm InGaAsP-InP Strained Multi-Quantum-Well Buried-Heterostructure Lasers,Jinyan Jin, Jing Shi, Decheng Tian,IEEE Photonic Technology Letters,17,276(2005)
42.Low threshold current 1.3-μm GaInNAs Vertical Cavity Surface Emitting Lasers Grown by MOVPE,Yue aiwen, Shen Kun, Wang renfan and Jing SHI,IEEE Photonic Technology Letters,16(3) 717(2004)
43.Preparation and Characterization of Molybelenum oxide thin films by sol-gel process,J. B. Sun, R.Xiong,J.Shi.,J.Sol-gel Sci. Tech.,27, 315 (2003)
44.Magnetoresistance properties of quasi-two-dimensional charge-density wave compounds AMo6O17( A=Na, K, and Tl),Ming-Liang Tian,Jing Shi, Song yue et al.,J.Appl.Phys.,89(6): 3408(2001)
45.Magnetotransport and the Shubnikov-de Hass effect in quasi-two-dimensional purple bronze TlMo6O17,Ming-Liang Tian,Jing Shi, Song Yue,J.Phys.: Condens. Matter13(2001): 311-318
46.Infrared and EPR studies of the red potassium molybdenum bronze K0.33MoO3,Rui Xiong,Jing Shi,Qingming Xiao, Decheng Tian et al.J. Mater. Sci.36(22): 5511-5514 (2001)
47.Numerical calculation of the dip effect in high-Tc single crystals from bulk pinningP. Zhang,J. Shi, S.Y.Ding, C. Ren, S.A. Aruma, and X.X.yao,Phys.Rev.,B62, 5374 (2000)
48.Specific heat study of the CDW phase transition in the doped blue bronzes Tl1-xKxMoO3D.L. Wang,Jing Shi,Mod.Phys.Lett.,B14, 251 (2000)
49.Charge density wave insitabity in TlMo6O17,R.Xiong, Q.M. Xaio,Jing Shi,Mod.Phys.Lett.,B14, 345 (2000)
50.Giant peak effect observed in an ultral pure YBa2Cu3O6.993crystal.,Jing Shi, X.S. Ling, Ruixing Liang, D.A.Born, and W.N.Hardy,Phys. Rev.,BRapid Communication,60, 12593 (1999). [2] 
參考資料