學習及工作經歷
2006年山東師範大學原子與分子物理專業碩士畢業獲碩士學位;
教學及科研情況
代表性論文
1、Guo Yahui*,Zhang Fengyun,Ma Hongzhang,Theoretical study of stereodynamics for the abstraction reaction D′+DS(v=0,j=0) →D′D+S,Chin. Phys. B.,2013,22(5):053402-1-6。
2、Guo Yahui*,Zhang Fengyun,Theoretical study of the stereodynamics of the N(4S)+D2→ND+D reaction on the DMBE surface,J. Theor .Comput. Chem.,2013,12(2):1250110。
3、Guo Yahui*,Lu Bin,Zhang Fengyun,Shu Shishuang,Ma Hongzhang,Effect of reagent vibrational excitation on stereodynamical properties of N(4S)+H2→NH+H reaction,Journal of China University of Petroleum (Natural Science Edition),2013,37(1):190-194。
4、Guo Yahui*,Zhang Fengyun,Ma hongzhang,Collision energies effect on cross sections and product alignments for the D+DS reaction,Communication in Computational Chemistry,2013,1(1):99-108。
5、Guo Yahui*,He Haixiang,Liu Jianyong,He Guozhong,Sensitivity of high-order harmonic generation to nuclear motion,J. Mole. Struc: THEOCHEM,2010,947(1-3):119-122。
6、Guo Yahui*,He Haixiang,Liu Jianyong,He Guozhong,Enhancement and extension of high-order harmonic emission and an isolated sub-100 as pulse generation from two-color laser fields,J. Theor. Comput. Chem.,2010,9(4):735-744。
7、He Haixiang,Lu Ruifeng,Zhang Peiyu,Guo Yahui,Han Keli,He Guozhong,Theoretical investigation of the origin of the multipeak structure of kinetic-energy-release spectra from charge-resonance-enhanced ionization of H2+ in intense laser fields,Phys. Rev. A,2011,84(3):033418。
8、He Haixiang,Guo Yahui,He Guozhong,Controls for the generation of high-order harmonics and attosecond pulses by an infrared laser field combined with a low-frequency pulse,Chin. Phys. B,2012,21(8):080202。
9、郭雅慧,尹教建,大學教師的角色衝突及化解策略,中國石油大學學報(社會科學版),2015,31(3):100-104。
10、郭雅慧,張亞萍,馬紅章,朱海豐,劉彥民,探究式物理實驗教學模式在光的偏振特性研究實驗中的實踐,物理與工程,2013增刊,324。
11、郭雅慧,尹教建,物理實驗系列課程教學體系的探究與實踐,中國石油大學學報(社會科學版),2014年S2,136。
教學科研課題
1.主持山東省自然科學基金聯合專項(ZR2015AL023)“利用量子-經典混合方法對三原子體系非絕熱立體動力學性質的理論研究”;
2.主持校青年教師教學改革項目“探究式物理實驗教學模式的研究與實踐”;
3.主持校自主科技創新項目(13CX02018A)“非貴金屬染料敏化分子的理論設計”;
4.主持青島市博士後研究人員套用研究項目“新型純有機卟啉類染料敏化分子的設計”。