教學方面
研究生教學:量子散射理論基礎,原子分子結構理論,文獻閱讀
本科生教學:量子力學,熱力學與統計物理,原子物理學
教學研究項目:近代物理教學的CAI課件製做(2004年完成)
已經培養11名碩士,其中5名攻讀博士學位(清華大學1名,哈爾濱工大2名,大連理工1名,中科院光機所1名)
科研方面
主持完成科研項目5項,著作一部,發表論文30餘篇,主要代表作有
Chapters and books
⒈ Zhang Chenghua,et al,Principle of quantum collision,Dalian science and technology university press 1992 (chapters of 2,4,5,7)
⒉ Zhang Changhua,et al,General physics for normal college and university,Liaoning normal university press 1997(mechanics parts)
⒊ Zhang Chenghua,et al Training of general physics for normal college and university,Jinzhou Normal University press 1998 (mechanics parts)
Journal Articles
⒋ Zhang Cheng-Hua,Zhang Shu-Liang,Wang Xiao-Wei and Wang Jing-Yang,Electron correlation in the final continuum of ionization hydrogen by 150-eV electron impact,Chinese Physics Letters,Vol.21,No.9 (2004) 1737?1740 (in English)
⒌ Zhang Cheng-Hua,Qiu Wei,Xin Jun-Li and Wang Xiao-Wei,Triple differential cross section of hydrogen by electron impact at intermediate energies,Chinese Physics,No.12 (2003) 1394-04,(in English).
⒍ Zhang Cheng-Hua,Qiu Wei,Xin Jun-Li and Wang Xiao-Wei,The calculation of triple differential cross section of hydrogen single ionization by electron impact,Acta Physica Sinica,Vol.52,No.10,(2003)2449-04 (in Chinese).
⒎ Zhang Cheng-Hua,Niu Ying-Yu,Wu Wei,Wang Xiao-Wei and Wang Jing-Yang,Optimal truncation in ionization of hydrogen by electron impact,Chinese Physics Letters,Vol.20,No.8 (2003) 1244?1246 (in English).
⒏ Zhang Cheng-Hua,Qian Wen-Jia Leng Wen-Xiu,Long Qi-Wei and Tiang En-Ke,the influence of scattering amplitude for distorted factor in Coulomb-eikonal approximation,Acta Physica Sinica,Vol.51,No.10,(2002)2225-04 (in Chinese).
⒐ Qiu Wei,Xin Jun-Li,Niu Ying-Yu and Zhang Cheng-Hua,Single ionization calculation of triple differential cross sections of hydrogen by electron impact,Journal of Liaoning University (Natural sciences editions),(2002) 17-19 (in Chinese).
⒑ C. W. Lung,J. Jiang,E. K. Tian and C. H. Zhang,Relation between fractal dimension and roughness index for fractal surfaces,Physical Review E,Vol. 60 No. 5 (1999) 5121?5125 (in English)
⒒ Lung Chiwei,Jiang Jian and Zhang Chenghua,The relation between the self-affinity and self-similarity of fractured surface,Progress in Physics Chemistry mechanics,No.4 (1997) 72?78 (in Chinese).
⒓ Chiwei Lung,Jian Jiang and Chenghua Zhang,Multirange fractal analysis on the negative correlation between fractal dimension of fractured surface and toughness of materials,Journal of materials science and technology,Vol.12 (1996) 318?320 (in English).
⒔ C. W. Lung,J. Jiang,E. K. Tian and C. H. Zhang,The relation between fractal dimension and roughness index for fractal surface,International Centre for theoretical physics,IC (1997) 83 (in English)
⒕ Zhang Chenghua,Lung Chiwei and Jiang Jian,The influence of superposition region of micro-structure scale for the fractured properties in the multi-range fractal,Materials design and processing,(1996) 185?188 (in Chinese).
目前的研究工作
學科:原子與分子物理學
研究方向:電子和離子與原子散射的離化過程
按照現代物質結構觀點,原子分子是構成各種具體物質的基元,物質的巨觀特性最終由這些基元的微觀性質決定,而後者又主要由核外電子,主要是價電子的運動規律所支配。在原子層次上的各學科中研究電子運動規律不但非常重要,而且也正好抓住了這些不同學科的基本特點。眾所周知,物質中的電子運動規律由量子力學描述,按照量子力學的基本原理描述電子運動規律的兩個最基本量是能級和波函式。電子和離子與原子散射的離化過程是同時得到電子的能級和波函式信息的重要手段。諾貝爾獎獲得者Fukui和Hotfmanu的研究工作表明,分子層次上的相互作用動力學與原子分子的電子態結構有著直接的關係,物質的電子結構可以決定材?的物理、化學、光學和電學性質。電子動量譜和反應動力學有著十分廣泛的套用前景。電子和離子與原子散射的離化過程很有希望成為研究新一代物質結構的主要方法,它在研究原子和分子結構以及納米尺度的光、電、磁性質時顯示出獨特的優點。自從20世紀60年代,國外已開始了實驗和理論研究,其成果已滲透到多個學科,在國內這一研究也已取得重要進展,在理論研究方面已與世界接軌,並用約10年時間就趕上了國外已走過的40餘年的發展步伐。預計不久的將來在理論研究和實際測量兩方面都會有廣泛的套用。