Publications 2003 – 2000

Year 2003

71.    Pan, E. and Cheng, A. H.-D. (2003): Treatment of Body Forces in Single-Domain Boundary Integral Equation Method for Anisotropic Elasticity. Chapter 5, In “Transformation of Domain Effects to the Boundary”, Editors: Y. F. Rashed and C. A. Brebbia, WIT Press, pp. 95-119. Invited Book Chapter. | icon_pdf (2,198K)
70.    Pan, E. (2003): Exact solution for functionally graded anisotropic elastic composite laminates. Journal of Composite Materials 37: 1903-1920. | icon_pdf (280K)
69.    Jogai, B., Albrecht, J.D., and Pan, E. (2003): Electromechanical coupling in free-standing AlGaN/GaN planar structures. Journal of Applied Physics 94: 6566-6573. | icon_pdf (110K)
68.    Pan, E. and Heyliger, P. (2003): Exact solutions for magneto-electro-elastic laminates in cylindrical bending. International Journal of Solids and Structures 40: 6859-6876. | icon_pdf (319K)
67.    Pan, E. (2003): Some new three-dimensional Green’s functions in anisotropic piezoelectric bimaterials. Electronic Journal of Boundary Elements, 1: 236-269 (also with 2D bimaterial Green’s functions under general interfacial conditions). Invited Contribution. | icon_pdf (506K)
66.    Jogai, B., Albrecht, J.D., and Pan, E. (2003): The effect of electromechanical coupling on the strain in AlGaN/GaN heterojunction field effect transistors. Journal of Applied Physics 94: 3984-3989. | icon_pdf (89K)
65.    Wang, C. D., Tzeng, C. S., Pan, E., Liao, J. J. (2003): Displacements and stresses due to a vertical point load in an inhomogeneous transversely isotropic half-space. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., 40: 667-685. | icon_pdf (366K)
64.    Pan, E. (2003): Three-dimensional fundamental solutions in multilayered piezoelectric solids. Chinese Journal of Mechanics Series A, 19: 127-132. Invited Contribution. | icon_pdf (314K)
63.    Yang, B., Pan, E., and Yuan, F. G. (2003): Three-dimensional stress analyses in composite laminates with an elastically pinned hole, International Journal of Solids and Structures, 40: 2017-2035. | icon_pdf (510K)
62.    Yang, B. and Pan, E. (2003): Elastic fields of quantum dots in multilayered semiconductors: A novel Green’s function approach. ASME Journal of Applied Mechanics, 70: 161-168. | icon_pdf (303K)
61.    Pan, E. (2003): Three-dimensional Green’s functions in anisotropic elastic bimaterials with imperfect interfaces. ASME Journal of Applied Mechanics, 70: 180-190. | icon_pdf (186K)
60.    Pan, E. and Yang, B. (2003): Elastic and piezoelectric fields in a substrate AlN due to a buried quantum dot. Journal of Applied Physics 93: 2435-2439. Also in the Virtual Journal of Nanoscale Science and Technology 7: Issue 11, March 17, 2003. | icon_pdf (831K)
59.    Pan, E. and Yang, B. (2003): Three-dimensional interfacial Green’s functions in anisotropic bimaterials. Applied Mathematical Modelling, 27: 307-326. | icon_pdf (346K)
58.    Pan, E. (2003): Three-dimensional Green’s functions in an anisotropic half space with general boundary conditions. ASME Journal of Applied Mechanics, 70: 101-110. | icon_pdf (165K)

Year 2002

57.    Pan, E. (2002): Three-dimensional Green’s functions in anisotropic magneto-electro-elastic bimaterials. Journal of Applied Mathematics and Physics (ZAMP, Zeitschrift für Angewandte Mathematik und Physik) 53: 815-838. | icon_pdf (265K)
56.    Yang, B. and Pan, E. (2002): Elastic analysis of an inhomogeneous quantum dot in multilayered semiconductors using a boundary element method. Journal of Applied Physics 92: 3084-3088. Also published in the Virtual Journal of Nanoscale Science and Technology, Volume 6, Issue 11, September 9, 2002. | icon_pdf (105K)
55.    Pan, E. (2002): Elastic and piezoelectric fields in substrates GaAs (001) and GaAs (111) due to a buried quantum dot. Journal of Applied Physics 91: 6379-6387. Also published in the Virtual Journal of Nanoscale Science and Technology, Volume 5, Issue 21, May 27, 2002. | icon_pdf (1,133K)
54.    Yang, B. and Pan, E. (2002): Efficient evaluation of three-dimensional Green’s functions in anisotropic elastostatic multilayered composites. Engineering Analysis with Boundary Elements 26: 355-366. | icon_pdf (769K)
53.    Yang, B. and Pan, E. (2002): Three-dimensional Green’s functions in anisotropic trimaterials. International Journal of Solids and Structures 39: 2235-2255. | icon_pdf (474K)
52.    Pan, E. (2002): Elastic and piezoelectric fields around a quantum dot: Fully coupled or semi-coupled model? Journal of Applied Physics 91: 3785-3796. Also published in the Virtual Journal of Nanoscale Science and Technology, Volume 5, Issue 10, March 11, 2002. | icon_pdf (177K)
51.    Pan, E. (2002): Mindlin’s problem for an anisotropic piezoelectric half space with general boundary conditions. Proceedings of the Royal Society of London A 458: 181-208 (also with 2D half-plane Green’s functions under general boundary conditions). | icon_pdf (881K)
50.    Pan, E. and Heyliger, P. (2002): Free vibrations of simply supported and multilayered magneto-electro-elastic plates. Journal of Sound and Vibration 253: 429-442. | icon_pdf (228K)

Year 2001

49.    Pan, E. and Yang, B. (2001): Elastostatic fields in an anisotropic substrate due to a buried quantum dot. Journal of Applied Physics, 90: 6190-6196. Also published in the Virtual Journal of Nanoscale Science and Technology, Volume 4, Issue 24, December 10, 2001. | icon_pdf (206K)
48.    Tonon, F., Amadei, B., Pan, E., and Frangopol, D. M. (2001): Bayesian estimation of rock mass boundary conditions with applications to the AECL’s underground research laboratory, Int. J. Rock Mech. Min. Sci. & Geomech. Abstr. 38: 995-1027. | icon_pdf (1,520K)
47.    Tonon, F., Amadei, B., and Pan, E. (2001): Bayesian estimation of boundary conditions with application to deep tunneling. Geotechnical and Geological Engineering, 19: 43-67. | icon_pdf (399K)
46.    Pan, E. (2001): Exact solution for simply supported and multilayered magneto-electro-elastic plates. ASME Journal of Applied Mechanics, 68: 608-618. | icon_pdf (154K)
45.    Pan, E., Yang, B., Cai, G. and Yuan, F. G. (2001): Stress analysis around holes in composite laminates using boundary element method. Engineering Analysis with Boundary Elements, 25: 31-40. | icon_pdf (196K)
44.    Tonon, F., Pan, E., and Amadei, B. (2001): Green’s functions and boundary element method formulation for 3D anisotropic media. Computers and Structures, 79: 469-482. | icon_pdf (234K)

Year 2000

43.    Pan, E. and Yuan, F. G. (2000): Boundary element analysis of three-dimensional cracks in anisotropic solids. International Journal for Numerical Methods in Engineering, 48: 211-237. | icon_pdf (311K)
42.    Pan, E. and Yuan, F. G. (2000): Three-dimensional Green’s functions in anisotropic piezoelectric bimaterials. International Journal of Engineering Science, 38: 1939-1960. | icon_pdf (496K)
41.    Pan, E. and Yuan, F. G. (2000): Three-dimensional Green’s functions in anisotropic bimaterials. International Journal of Solids and Structures, 37: 5329-5351. | icon_pdf (468K)
40.    Pan, E. and Tonon, F. (2000): Three-dimensional Green’s functions in anisotropic piezoelectric solids. International Journal of Solids and Structures, 37: 943-958. | icon_pdf (245K)