• Shao, Z., Porod,W., Lent, C. S. and Kirkner, D. J., "An Eigenvalue Method for Open-Boundary Quantum Transmission Problems," Journal of Applied Physics, 78 (4), 15 August, 1995, pp. 2177-2186.
• Chen, M., Porod, W., Kirkner, D. J., "Coupled Finite Element/Boundary Element Method for Semiconductor Quantum Devices with Exposed Surfaces," Journal of Applied Physics, 75,(5), 1 March, 1994, 2545-2554.
• Kirkner, D.J., Lent, C.S., Sivaprakasam, S., "The Numerical Simulation of Electron Transmission Through a Two-Dimensional Quantum Device by the Finite Element Method", International Journal for Numerical Methods in Engineering, Vol. 29, 1527-1537, 1990.
• Lent, C.S., Kirkner, D.J., "The Quantum Transmitting Boundary Method", Journal of Applied Physics, Vol. 67, No. 10, 3653-6359, 15 May 1990.

  
  

• P. Havu, V. Havu, M. J. Puska, and R. M. Nieminen, Nonequilibrium electron transport in two-dimensional nanostructures modeled using Green's functions and the finite-element method, Physical Review B 69(11), 2004, from 115325-1 to 115325-13.
• P. Havu, M. J. Puska, R. M. Nieminen, and V. Havu, Electron transport through quantum wires and point contacts, Phys. Rev. B 70, 233308 (2004).
• P. Havu, T. Torsti, M. J. Puska, and R. M. Nieminen, Conductance oscillations in metallic nanocontacts, Phys. Rev. B 66, 075401 (2002)
  

• Quantum-dot Cellular Automata
• Nanoelectronic and Quantum Device Modeling
• DAMOCLES is a self-consistent Poisson/Monte Carlo computer program simulating electronic transport in semiconductor devices.
• NEMO 3D: 3-D Nanoelectronic Modeling.
• Prof. Craig S. Lent
• Prof. Wei Cai: wcai@uncc.edu
• Prof. William R. Frensley
• Laboratory of Physics, Prof. Risto Nieminen
• Prof. Supriyo Datta

Eigenvalue Problems

• Y.M. Kao and T.F. Jiang, A domian's decomposition method for eigenvalue problems, Physical Review E 71, 036702(2005)
• G.W. Wei, Solving quantum eigenvalue problems by discrete singular convolution, J. Phys. B 33(2000), 343--.