发表论文120余篇, 合作著作两部。98篇(第一作者45篇)被SCI收录, 两次荣居SCI论文数全国前十名。论文被引用760余次,被40多个国家和地区的同行他引580余次,重要论文被8个权威刊物的12篇综述文章和两部专著引用,有的被大篇幅收录。 主要论文 Physics in quantum-well materials [1] Jia-Lin Zhu Coupling between a donor potential and quantum wells: Effect on binding energies Phys. Rev. B 40 10529 (1989). [2] Jia-Lin Zhu, Dao-Hua Tang and Jia-Jiong Xiong Subbands and excitons in GaAs/Ga1-xAlxAs quantum wells with different shapes in an electric field Phys. Rev. B 39 8609 (1989). [3] Jia-Lin Zhu, Dao-Hua Tang, and Bing-Lin Gu Dependence of energy shifts on the field direction in a graded Ga1-xAlxAs quantum well Phys. Rev. B 39 3896 (1989) [4] Jia-Lin Zhu, W.H. Duan, and Bing-Lin Gu Electron-phonon scattering in Ga1-xAlxAs quantum-well structures in an electric-field Phys Rev B 50 5473 (1994) [5] Jia-Lin Zhu and Sheng Xu Binding and transition energies of off-center D— in quantum wells and magnetic fields Phys. Rev. B 50 12175 (1994). [6] W.H. Duan, Jia-Lin Zhu, and Bing-Lin Gu Electron-interface-phonon scattering in graded quantum wells of Ga1-xAlxAs Phys. Rev. B 50 14403 (1994). [7] Jia-Lin Zhu, D.L. Lin and Y. Kawazoe Energy levels of D0 and D— in graded quantum well structures of GaAs/Ga1-xAlxAs under magnetic fields Phys. Rev.B 54 16786 (1996). [8] Z.X.Jiang, B.D.McCombe, Jia-Lin Zhu and W.Schaff Magnetic-field-induced unbinding of the off-well-center D—-singlet state in GaAs/Al0.3Ga0.7As multiple quantum wells Phys. Rev.B 56 R1692 (1997). Electronic structures and confinement effects in quantum dots [9] Jia-Lin Zhu, Jia-Jiong Xiong and Bing-Lin Gu Confined electron and hydrogenic donor states in a spherical quantum dot of GaAs/Ga1-xAlxAs Phys. Rev. B 41 6001 (1990). [10] Jia-Lin Zhu, Jie-Hua Zhao and Bing-Lin Gu D— centers in spherical quantum dots Phys. Rev. B 46 7546 (1992). [11] Jia-Lin Zhu, Jie-Hua Zhao and Jia-Jiong Xiong Dimensionality and potential-shape effects on D0 and D— ground states in quantum dots Phys. Rev.B 50 1832 (1994). [12] Jia-Lin Zhu, and Xi Chen Spectrum and binding of an off-center donor in a spherical quantum dot Phys. Rev. B 50 4497 (1994). [13] Jia-Lin Zhu, Zhi-Qiang Li, Jing-Zhi Yu, K. Ohno and Y. Kawazoe Size and shape effects of quantum dots on two-electron spectra Phys. Rev. B 55 15819 (1997). [14] Jia-Lin Zhu, Z. Zhu, Y. Kawazoe and T. Yao Spin oscillation and its reduction in a quantum dot Phys. Rev. B 58 13755 (1998). Macroscopic quantum coherence and tunneling in magnetic nanoparticles [15] Rong Lu, Jia-Lin Zhu, Xiao-Bing Wang and Lee Chang Resonant quantum coherence of the Neel vector in a magnetic field applied along the medium axis Phys. Rev. B 58 8542 (1998). [16] Rong Lu, Jia-Lin Zhu, Xiao-Bing Wang and Lee Chang Macroscopic quantum coherence and tunneling of an antiferromagnetic nanoparticle in a magnetic field at an arbitrarily directed angle Phys. Rev. B 60 4101 (1999). [17] Rong Lu, Jia-Lin Zhu, Yi Zhou and Bing-Lin Gu Phase intereference of spin tunneling in an arbitrarily directed magnetic field Phys. Rev. B 62 11661(2000). [18] Rong Lü, Jia-Lin Zhu, Yi Zhou, and Bing-Lin Gu Spin-phase interference, coherent superposition, and quantum tunneling at excited levels in nanoantiferromagnets Phys. Rev. B 64 064423 (2001) Electronic structures and transport properties in carbon nanotubes [19] Hai-Feng Song, Jia-Lin Zhu, Jia-Jiong Xiong Symmetry effect on the conductance of two-defect carbon nanotubes Phys. Rev B 65 085408 (2002) [20] Hai-Feng Song, Jia-Lin Zhu, Jia-Jiong Xiong Quantum interference induced by nonmagnetic impurities in a single-walled carbon nanotube Phys. Rev. B 66 245421 (2002). [21] Feng Wei, Jia-Lin Zhu, Hao-Ming Chen Density of states for metallic carbon nanotubes with a magnetic impurity Phys. Rev. B 67 085422 (2003) Prediction and control for quantum behaviors in complex nanorings [22] Jia-Lin Zhu, Xi Chen and Y. Kawazoe Persistent current in a one-dimensional disordered ring in the Luttinger model Phys. Rev. B 55 16300 (1997). [23] Hui Hu, Jia-Lin Zhu, and J.J.Xiong Energy levels and far-infrared spectroscopy for two electrons in a nanoscopic semiconductor rings Phys. Rev. B 62 16777 (2000). [24] Hui Hu, Jia-Lin Zhu, Dai-Jun Li, and Jia-Jiong Xiong Aharonov-Bohm effect of excitons in nanorings Phys. Rev. B 63 195307 (2001) [25] Jia-Lin Zhu, Xi-Quan Yu, Zhen -Sheng Dai, and Xiao Hu, Aharonov-Bohm oscillation modes in double-barrier nanorings, Phys. Rev. B 67, 075404 (2003). [26] Xi-Quan Yu , Jia-Lin Zhu, and Xiao Hu, Controllable electronic structures and related properties in a double-barrier nanoring, Appl. Phys. Lett. 82, 4567 (2003). Exact solutions for low-dimensional systems [27] Jia-Lin Zhu Exact solutions for hydrogenic donor states in a spherically rectangular well Phys. Rev. B 39 Rapid Communications 8780 (1989). [28] Jia-Lin Zhu and Jia-Jiong Xiong Hydrogen molecular ions in two dimensions Phys. Rev. B 41 12274 (1990). [29] Jia-Lin Zhu, Yong Cheng and Jia-Jiong Xiong Quantum levels and Zeeman splitting for two-dimensional hydrogenic donor states in a magnetic field Phys. Rev.B 41 10792 (1990). [30] Jia-Lin Zhu, Zhen-Sheng Dai, and Xiao Hu, Two-electrons in one-dimensional nanorings: Exact solutions and interaction energies, Phys. Rev. B 68, 045324 (2003). Subjects related to low-dimensional materials [31] A.Q. Lu, K. A. Chao and Jia-Lin Zhu Correlated shallow impurity bands in doped semiconductors Phys. Rev. B 31 8087 (1985). [32] Bing-Lin Gu, Jun. Ni and Jia-Lin Zhu Structure of alloy (GaAs)1-xGe2x and its electronic properties Phys. Rev. B 45 4071 (1992). [33] Zhi-Qiang Li, Jia-Lin Zhu, C.Q. Wu, Z. Tang and Y. Kawazoe Relaxations of TiO2— and SrO— terminated SrTiO3 (001) surfaces Phys. Rev. B 58 8075 (1998). |
