8. Semiclassical States in the Quantum Hall Effect, in Festkörperprobleme (Advances in Solid State Physics) vol. XXV, p. 413, P. Grosse (ed.), Vieweg, Braunschweig, 1985
7. Effect of Single-Particle Lifetimes in High Temperature Magnetic Neutron Scattering, J. Phys. F15, 2203 (1985)
6. Theory of the AC Breakdown of the Quantum Hall Effect, J. Phys. C18, L331 (1985)
5. Ground State Magnetovolume Effect in Alloys (with V. Heine) Jour. Magn. Magn. Mat. 45, 74 (1984)
4. Scattering Wavefunctions in the Quantum Hall Effect, J. Phys. C17, 4807 (1984)
3. Electrical Resistance of Itinerant Ferromagnets, J. Phys. F14, 2363 (1984)
2. Conditions for the Quantum Hall Effect, (with R. E. Prange) Phys. Rev. B29, 3303 (1984)
1. Conduction in a Strong Field in Two Dimensions: The Quantum Hall Effect, (with R. E. Prange) Phys. Rev. B25, 2943 (1982).
High-Tc Superconducting Thin Films, Devices, and Applications (Am. Inst. of Physics, Conf. Proc. American Vacuum Society Meeting, Atlanta, GA 1988) (with G. Margaritondo and M. Onellion).
1. U.S. Patent No. 6,597,010: "Solid-state quantum dot devices and quantum computing using nanostructured logic gates", awarded 7/22/2003. Inventors: M.A. Eriksson, M. Friesen, R. Joynt. M. Lagally, D. van der Weide, P. Rugheimer, and D. Savage.
2. U.S. Patent No. 7,137,697 "A self-contained, patterned quantum dot device for spin to charge transduction, readout and initialization, for use in quantum computing and quantum information processing", awarded 11/14/2007. Inventors: M. Friesen, C. Tahan, R. Joynt, and M.A. Eriksson.