The Mathematica Journal
Volume 10, Issue 2

Search

In This Issue
Articles
In and Out
Trott's Corner
Beyond Sudoku
New Products
New Publications
Calendar
News Bulletins
New Resources
Classifieds

Download This Issue 

About the Journal
Editorial Policy
Staff and Contributors
Submissions
Subscriptions
Advertising
Back Issues
Contact Information

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

References

[1] D. Pfannkuche, V. V. Gudmundsson, and P. A. Maksym, "Comparison of a Hartree, a Hartree-Fock, and an Exact Treatment of Quantum-Dot Helium," Physical Review B (Condensed Matter), 47(4), 1993 pp. 2244-2250.

[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.



     
About Mathematica | Download Mathematica Player 
© Wolfram Media, Inc. All rights reserved.