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Volume 10, Issue 2


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Electronic Structure of Multi-Electron Quantum Dots
Ranga D. Muhandiramge
Jingbo Wang


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[2] C. Yannouleas and U. Landman, "Spontaneous Symmetry Breaking in Single and Molecular Quantum Dots," Physical Review Letters, 82(26), 1999 pp. 5325-5328.

[3] C. Yannouleas and U. Landman, "Collective and Independent-Particle Motion in Two-Electron Artificial Atoms," Physical Review Letters, 85(8), 2000 pp. 1726-1729.

[4] S. A. McCarthy, J. B. Wang, and P. C. Abbott, "Electronic Structure of an N-Electron Quantum Dot," Computer Physics Communications, 141, 2001 pp. 175-204.

[5] M. Macucci, K. Hess, and G. J. Iafrate, "Simulation of Electronic Properties and Capacitance of Quantum Dots," Journal of Applied Physics, 77(7), 1995 pp. 3267-3276.

[6] I.-H. Lee, V. Rao, R. M. Martin, and J.-P, Leburton, "Shell Filling of Artificial Atoms within Density-functional Theory," Physical Review B (Condensed Matter), 57(15), 1998 pp. 9035-9041.

[7] T. Ezaki, N. Mori, and C. Hamaguchi, "Electronic Structures in Circular, Elliptic, and Triangular Quantum Dots," Physical Review B (Condensed Matter), 56(11), 1997 pp. 6428-6431.

[8] T. Ezaki, Y. Sugimoto, N. Mori, and C. Hamaguchi, "Electronic Properties in Quantum Dots with Asymmetric Confining Potential," Semiconductor Science and Technology, 13(8a), 1998 pp. A1-A3.

[9] M. Eto, "Electronic Structures of Few Electrons in a Quantum Dot under Magnetic Fields," Japanese Journal of Applied Physics, 36, 1997 pp. 3924-3927.

[10] M. Eto, "Many-Body States in a Quantum Dot under High Magnetic Fields," Japanese Journal of Applied Physics, 38, 1999 pp. 376-379.

[11] S. M. Reimann, M. Koskinen, and M. Manninen, "Formation of Wigner Molecules in Small Quantum Dots," Physical Review B (Condensed Matter), 62(12), 2000 pp. 8108-8113.

[12] S. M. Reimann and M. Manninen, "Electronic Structure of Quantum Dots," Reviews of Modern Physics, 74(4), 2002 pp. 1283-1343.

[13] J. B. Wang, C. Hines, and R. D. Muhandiramge, "Electronic Structure of Quantum Dots," The Handbook of Theoretical and Computational Nanoscience (M. Rieth and W. Schommers, eds.), Stevenson Ranch, CA: American Scientific Publishers, 2006.

[14] R. Pauncz, The Construction of Spin Eigenfunctions: An Exercise Book, New York: Kluwer Academic/Plenum Publishers, 2000.

[15] V. A. Fock, "Bemerkung zur Quantelung des Harmonischen Oszillators im Magnetfeld," Zeitschrift fur Physics, 47(5-8), 1928 pp. 446-448.

[16] C. G. Darwin, "The Diamagnetism of the Free Electron," Mathematical Proceedings of the Cambridge Philosophical Society, 27, 1930 pp. 86-90.

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