2004

1. Timothy B. Boykin, Gerhard Klimeck, M. A. Eriksson, Mark Friesen, S. N. Coppersmith, Paul von Allmen, Fabiano Oyafuso, and Seungwon Lee,
   "Understanding valley splitting in low-density quantum confined heterostructures using tight-binding models",
   Phys. Rev. B 70, 165325 (2004).
2. Olga L. Lazarenkova, Paul von Allmen, Fabiano Oyafuso, Seungwon Lee, and Gerhard Klimeck,
   "Effect of anharmonicity of the strain energy on band offsets in semiconductor nanostructures",
   Appl. Phys. Lett. 85, 4193 (2004).
3. Seungwon Lee, Olga L. Lazarenkova, Fabiano Oyafuso, Paul von Allmen, and Gerhard Klimeck,
   "Effect of wetting layers on the strain and electronic structures of InAs self-assembled quantum dots",
   Phys. Rev. B 70, 125307 (2004)
4. Seungwon Lee, Paul von Allmen, Fabiano Oyafuso, Gerhard Klimeck, and K. Birgitta Whaley,
   "Effect of electron-nuclear spin interactions on electron spin qubits localized in self-assembled quantum dots",
   submitted to J. Applied Physics (2004), Preprint quant-ph/0403122
5. Seungwon Lee, Fabiano Oyafuso, Paul von Allmen, and Gerhard Klimeck,
   "Boundary conditions for the electronic structure of finite-extent, embedded semiconductor nanostructures",
   Phys. Rev. B 69, 045316 (2004).
6. Timothy B. Boykin, Gerhard Klimeck, Mark Eriksson, Mark Friesen, S. N. Coppersmith, Paul von Allmen, Fabiano Oyafuso, and Seungwon Lee,
   "Valley splitting in strained silicon quantum wells",
   Appl. Phys. Lett., 84, 115 (2004).
7. Timothy B. Boykin, Gerhard Klimeck, and Fabiano Oyafuso
   "Valence band effective mass expressions in the sp3d5s* empirical tight-binding model applied to a new Si and Ge parameterization",
   Phys. Rev. B. 69, 115201 (2004)
8. Olga L. Lazarenkova, Paul von Allmen, Fabiano Oyafuso, Seungwon Lee, and Gerhard Klimeck
   "Atomistic model for the simulation of acoustical phonons, strain distribution, and Gruneisen coefficients in zinc-blende semiconductors",
   Superlattices and Microstructures, Vol 34, pg. 553-556 (2004).

2003

1. Gerhard Klimeck,
   "Quantum and semi-classical transport in RTDs in NEMO 1-D",
   Journal of Computational Electronics, Vol 2, pg. 177-182, (2003).
2. Christian Rivas, Roger Lake, William R. Frensley, Gerhard Klimeck, Phillip E. Thompson, Karl D. Hobart, Sean L. Rommel, and Paul R. Berger,
   "Full Band Modeling of the Excess Current in a Delta-Doped MBE Grown Silicon Tunnel Diode",
   Journal of Appl. Phys. 94, 5005 (2003).
   
3. Fabiano Oyafuso, Gerhard Klimeck, R. Chris Bowen, Timothy B. Boykin, and Paul von Allmen
   "Disorder Induced Broadening in Multimillion Atom Alloyed Quantum Dot Systems",
   Phys. Stat. Sol. (c), vol 0004, pg 1149-1152 (2003).
4. Fabiano Oyafuso, Gerhard Klimeck, Paul von Allmen, Tim Boykin, and R. Chris Bowen,
   "Strain Effects in large-scale atomistic quantum dot simulations",
   Phys. Stat. Sol. (b), Vol. 239, p 71-79 (2003).
5. Titus Sandu, Gerhard Klimeck, and Wiley Kirk,
   "Off-Center Electron Transport and Breakdown of Tsu-Esaki Formula in Resonant Tunneling Diodes due to Incoherent Scattering",
   Phys. Rev. B 68, 115320 (2003).
6. Lazarenkova O.L., Balandin A.A. Raman scattering from three-dimensionally regimented quantum dot superlattices, Superlattices and Microstructures,33, 95 (2003).
7. Balandin A.A., Lazarenkova O.L. Mechanism for thermoelectric figure-of-merit enhancement in regimented quantum dot superlattices. Applied Physics Letters, 82, 415 (2003).

2002

1. Parallel Unstructured AMR and Gigabit Networking for Beowulf-Class Clusters
   C. D. Norton and T. A. Cwik.
   In Lecture Notes in Computer Science (LNCS), Springer-Verlag, No. 2328, pp. 552-563, 2002
2. Gerhard Klimeck, Fabiano Oyafuso, R. Chris Bowen, Timothy B. Boykin, Thomas A. Cwik, Edith Huang, and Edward Vinyard
   "3-D Atomistic Nanoelectronic Modeling on High Performance Clusters: Multimillion Atom Simulations",
   Superlattices and Microstructures, Vol 31/2, pg 171-179, 2002.
3. Gerhard Klimeck
   "Parallelization of the Nanoelectronic Modeling Tool (NEMO 1-D) on a Beowulf Cluster",
   Journal of Computational Electronics, Vol 1, Issue 1-2, pp 75-79 (2002).
4. Fabiano Oyafuso, Gerhard Klimeck, R. Chris Bowen, and Timothy B. Boykin
   "Atomistic Electronic Structure Calculations of Unstrained Alloyed Systems Consisting of a Million Atoms",
   Journal of Computational Electronics, Vol 1. Issue 3, pp. 317-321 (2002).
5. Seungwon Lee, Jeongnim Kim, Lars Jönsson, John W. Wilkins, Garnett Bryant, and Gerhard Klimeck,
   "Many-body levels of multiply charged and laser-excited InAs nanocrystals modeled by empirical tight binding",
   Phys. Rev. B 66, 235307 (2002).
6. Timothy B. Boykin, Gerhard Klimeck, R. Chris Bowen, and Fabiano Oyafuso
   "Diagonal parameter shifts due to nearest-neighbor displacements in empirical tight-binding theory",
   Phys. Rev. B 66, 125207 (2002).
7. Gerhard Klimeck, Fabiano Oyafuso, Timothy B. Boykin, R. Chris Bowen, and Paul von Allmen
   "Development of a Nanoelectronic 3-D (NEMO 3-D) Simulator for Multimillion Atom Simulations and Its Application to Alloyed Quantum Dots" (INVITED),
   Computer Modeling in Engineering and Science (CMES) Volume 3, No. 5 pp 601-642 (2002).

2001

1. Highly Parallel Structured Adaptive Mesh Refinement Using Parallel Language-Based Approaches
   D. S. Balsara and C. D. Norton.
   In J. Parallel Computing, Vol. 27, pp. 37-70, 2001
2. Timothy B. Boykin, R. Chris Bowen, and Gerhard Klimeck,
   "Electromagnetic coupling and gauge invariance in the empirical tight-binding method",
   Physical Review B, Vol 63, pg. 245314 (2001).
3. Gerhard Klimeck, R. Chris Bowen, and Timothy B. Boykin,
   "Strong wavevector dependence of hole transport in heterostructures",
   Superlattices and Microstructures, Vol 29, No. 3, pg. 187-216 (2001).
4. Seungwon Lee, Lars Jönsson, John W. Wilkins, Garnett Bryant, and Gerhard Klimeck, Phys.
   "Electron-hole correlations in semiconductor quantum dots with tight-binding wave functions",
   Rev. B Vol. 63, 195318 (2001).
5. Gerhard Klimeck,
   "Indirect bandgap-like current flow in direct bandgap electron resonant tunneling diodes",
   Physica Status Solidi (b) Vol. 226, pg. 9-19 (2001)
6. Christian Rivas, Roger Lake, Gerhard Klimeck, William R. Frensley, Massimo V. Fischetti, Phillip E. Thompson, Sean L. Rommel, and Paul R. Berger
   "Full Band Simulation of Indirect Phonon-Assisted Tunneling in a Silicon Tunnel Diode with Delta-Doped Contacts",
   Applied Physics Letters, Vol. 78, pg 814, (2001).
7. Gerhard Klimeck, R. Chris Bowen, and Timothy B. Boykin,
   "Off Zone Center (Indirect Bandgap Like) Hole Transport in Heterostructures",
   Phys. Rev. B., Vol 63, pg. 195310 (2001).

2000

1. "sp3s* Tight-Binding Parameters for Transport Simulations in Compound Semiconductors",
   Gerhard Klimeck, R. Chris Bowen, Timothy B. Boykin, and Thomas A. Cwik,
   Superlattices and Microstructures Vol. 27, pp. 519-524 (2000).
2. "Si tight-binding parameters from genetic algorithm fitting",
   Gerhard Klimeck, R. Chris Bowen, Timothy B. Boykin, Carlos Salazar-Lazaro, Thomas A. Cwik, and Adrian Stoica,
   Superlattices and Microstructures, Vol. 27, No. 2/3, Mar 2000, pp. 77-88.
3. Scott Basinger, Edith Huang, Daniel S. Katz, Karen Liu, and David Redding, "Parallel Focus-Diveres Phase Retrieval," NASA Tech Brief NPO-20838, in publication, 2000.
4. D. S. Balsara and C. D. Norton. "Highly Parallel Structured Adaptive Mesh Refinement Using Parallel Language-Based Approaches," J. Parallel Computing, (to appear).
5. P. Wang, K. Liu, T. Cwik, and R. Green, MODTRAN on supercomputers and parallel computers, submitted to Parallel Computing.
6. P. Wang, R. Green, and T. Cwik, Parallel computation for the nonliner least square fitting in the AVIRIS project, in preparation.
7. B. N. Cheng, P. Wang, Y. Chao, and M. Bondarenko, Climate Ocean modeling on a Beowulf class system, in preparation.

1999

1. T. Cwik and C. Yeh, “Highly Sensitive Quantum Well Infrared Photodetectors,” Journal of Applied Physics, vol. 86, pp. 2779-2784, 1999.
2. Timothy B. Boykin, R. Chris Bowen, Gerhard Klimeck, and Kevin L. Lear, "Resonant-tunneling diodes with emitter prewells", Appl. Phys. Lett, Vol. 75, 1302 (1999).
3. P. Wang and R. D. Ferraro, Parallel multigrid finite volume computation of three-dimensional thermal convection, J. Computers and Mathematics with Applications, 37 (1999) 49-60.
4. Tom Cwik, Cinzia Zuffada, Daniel S. Katz, and Jay Parker, "Radar Scattering and Antenna Modeling on Scalable High Performance Computers," Industrial Strength Parallel Computing: Programming Massively Parallel Processing Systems, Editor: Alice Koniges, Morgan Kaufmann Publishers, Inc.,October 1999.
5. Yi Chao, P. Peggy Li, Ping Wang, Daniel S. Katz, Benny N. Cheng, and Scott Whitman, "Ocean Modeling and Visualization on a Massively Parallel Computer," Industrial Strength Parallel Computing: Programming Massively Parallel Processing Systems, Editor: Alice Koniges, Morgan Kaufmann Publishers, Inc., October 1999.
6. Daniel S. Katz, Andrea Borgioli, Thomas A. Cwik, Chuigang Fu, William A. Imbriale, Vahraz Jamnejad, and Paul L. Springer "Program for Designing Multiple-Reflector Antenna Systems," NASA Tech Brief NPO-20628, 1999.
7. Daniel S. Katz, "Perspectives in Electromagnetics: Creating Simple Graphical User Interfaces for Electromagnetic Codes," ACES Newsletter, July, 1999.
8. Daniel S. Katz and Tom Cwik, "Computational Electromagnetics," High Performance Cluster Computing: Programming and Applications, v. 2 (Editor: Rajkumar Buyya,) Prentice Hall, Inc., June 1999.
9. V. K. Decyk and C. D. Norton, "Fortran 90 'Gotchas' (Part 2)," ACM Fortran Forum, vol. 18, no. 3, p. 26, 1999 (3 pages).
10. V. K. Decyk, C. D. Norton, and B. K. Szymanski, "Fortran 90 'Gotchas' (Part 1)," ACM Fortran Forum, vol. 18, no. 2, p. 22, 1999 (2 pages).

1998

1. Object-Oriented Scientific Programming with Fortran 90 (INVITED)
   C. D. Norton.
   In "High Performance Computing Systems and Applications", Kluwer Academic Publishers,
   Edited by J. Schaeffer, pp. 47-58, 1998
2. How to support inheritance and run-time polymorphism in Fortran 90
   V. K. Decyk, C. D. Norton, and B. K. Szymanski.
   In Computer Physics Communications, Vol. 115, pp. 9-17, December 1998
3. V. K. Decyk, C. D. Norton, and B. K. Szymanski. "How to support inheritance and run-time polymorphism in Fortran 90," Computer Physics Communications, Vol. 115, pp. 9-17, December 1998.
   
4. D. B. Davidson and Tom Cwik, Guest Editors, "Special Issue on Computational Electromagnetics and High Performance Computing, Applied Computational Electromagnetics Society Journal, Vol. 13, No 2, 1998
5. D. S. Katz, T. Cwik, and T. Sterling, "An Examination of the Performance of Two Electromagnetic Simulations on a Beowulf-Class Computer," High Performance Computing Systems and Applications, Editor: Jonathon Schaeffer, Kluwer Academic Press, pp. 207-216, 1998.
6. J. Z. Lou, J. D. Farrara, "Performance Analysis and Optimizations on a Parallel Atmospheric General Circulation Model Code," Concurrency: Practice and Experience, v.10(0),1-17, August, 1998
7. T. Cwik, J. Z. Lou, and D. S. Katz, "Scalable, Finite Element Analysis of Electromagnetic Scattering and Radiation," Advances in Engineering Software, v. 29(3-6), pp. 289-296, July 1998.
8. D. S. Katz, T. Cwik, B. H. Kwan, J. Z. Lou, P. L. Springer, T. L. Sterling, and P. Wang, "An Assessment of a Beowulf System for a Wide Class of Analysis and Design Software," Advances in Engineering Software, v. 29(3-6), pp. 451-461, July 1998.
9. P. Wang, "Massively Parallel Finite Volume Computation of Three-Dimensional Thermal Convective Flows," Advances in Engineering Software, v. 29(3-6), pp. 307-315, July 1998.
10. C. D. Norton. "Object-Oriented Scientific Programming with Fortran 90," (Invited Book Chapter) High Performance Computing Systems and Applications, Kluwer Academic Publishers, Edited by J. Schaeffer, pp. 47-58, 1998.
11. V. K. Decyk, C. D. Norton, and B. K. Szymanski. "Expressing Object-Oriented Concepts in Fortran 90", NASA Tech Briefs, Vol. 22, No. 3, pp. 100-101, March 1998 (reduced version).
12. T. Cwik, D. S. Katz, C. Zuffada, and V. Jamnejad, "The Application of Scalable Distributed Memory Computers to the Finite Element Modeling of Electromagnetic Scattering and Radiation," International Journal of Numerical Methods in Engineering, v. 41(4), pp. 759-776, February 28, 1998.

1. Object-Oriented Plasma PIC Simulation in Fortran 90 and C++ on MPPs
   C. D. Norton, V. K. Decyk, and B. K. Szymanski.
   In Computational Chemistry on Clusters, MPPs, and other Novel Architectures,
   American Chemical Society Press Books
2. How to Express C++ Concepts in Fortran 90
   V. K. Decyk, C. D. Norton, and B. K. Szymanski.
   In Scientific Programming, Vol. 6, Num. 4, IOS Press, pp. 363-390, Winter 1997
3. Expressing Object-Oriented Concepts in Fortran 90
   V. K. Decyk, C. D. Norton, and B. K. Szymanski.
   ACM Fortran Forum, vol. 16, num 1, pp. 13-18, April 1997
4. P. Wang and R. D. Ferraro, "Parallel Computation for Natural Convection", Concurrency Practice and Experience, v. 9(10), pp. 975-987, October 1997.
5. Preliminary Report: Findings of the First NASA Workshop on Beowulf-class Clustered Computing, October 22-23, 1997, Pasadena CA. Thomas Sterling, NASA Jet Propulsion Laboratory/California Institute of Technology; David Bailey, Ames Research Center; Donald Becker, Center of Excellence for Space Data and Information Sciences; Tom Cwik, Jet Propulsion Laboratory; Robert Ferraro, Jet Propulsion Laboratory; Clark Mobarry, Goddard Space Flight Center; Bill Nitzberg, Ames Research Center.
6. V. K. Decyk, C. D. Norton, and B. K. Szymanski. "Expressing Object-Oriented Concepts in Fortran 90", ACM Fortran Forum, vol. 16, num 1, pp. 13-18, April 1997.
7. T. Cwik, D. S. Katz, and J. Patterson, "Scalable Solutions to Integral-Equation and Finite-Element Simulations," (invited paper for special issue on Advanced Numerical Techniques in Electromagnetics), IEEE Trans. Antennas Propagat., v. 45(3), pp. 544-555, March 1997.
8. V. K. Decyk, C. D. Norton, and B. K. Szymanski. "How to Express C++ Concepts in Fortran 90." Scientific Programming, Vol. 6, Num. 4, IOS Press, pp. 363-390, Winter 1997.

1996

1. On Parallel Object Oriented Programming in Fortran 90
   C. D. Norton, V. K. Decyk, and B. K. Szymanski.
   ACM SIGAPP Applied Computing Review, 4(1):27-21, Spring 1996
2. J. Z. Lou and R. Ferraro, "A Parallel Incompressible Flow Solver Package with a Parallel Elliptic Multigrid Kernel," Journal of Computational Physics, 125, 225-243, 1996.
3. J. Z. Lou and R. Ferraro, "A Parallel Three-Dimensional Incompressible Navier-Stokes Solver with a Parallel Multigrid Kernel." International Journal of High-Speed Computing, v. 8(4), pp. 319-346, 1996.
4. C. D. Norton, V. K. Decyk, and B. K. Szymanski, "On Parallel Object Oriented Programming in Fortran 90", ACM SIGAPP Applied Computing Review, v. 4(1), pp. 27-21, Spring 1996.

1995

1. Object Oriented Parallel Computation for Plasma Simulation
   C. Norton, B. Szymanski, and V. Decyk.
   Communications of the ACM, 38(10):88-100, October, 1995