Richard L. Liboff
Affiliations: | Cornell University, Ithaca, NY, United States |
Area:
Mathematics, Molecular Physics, General EngineeringGoogle:
"Richard Liboff"Mean distance: (not calculated yet)
Cross-listing: MathTree
Parents
Sign in to add mentor| Harold Grad | grad student | 1961 | NYU | |
| (Propagation of Long Wavelength Disturbances in a Plasma) | ||||
| Bruno Zumino | grad student | 1961 | NYU | |
| (Propagation of Long Wavelength Disturbances in a Plasma) | ||||
Children
Sign in to add trainee| David A. Hammer | grad student | 1969 | Cornell (E-Tree) |
| Mason A. Porter | grad student | 2002 | Cornell (MathTree) |
| Steven R. Seidman | grad student | 2005 | Cornell (MathTree) |
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Publications
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| Liboff RL. (2004) Mapping onto the plane of a class of concave billiards Quarterly of Applied Mathematics. 62: 323-335 |
| Liboff RL. (2004) Symmetry of emission spectra of dual convex polyhedra Philosophical Magazine Letters. 84: 27-31 |
| Liboff RL, Porter MA. (2004) Energy absorption and dissipation in quantum systems Physica D: Nonlinear Phenomena. 195: 398-402 |
| Liboff RL. (2003) Origin of the solar system Astronomical Journal. 126: 3132-3137 |
| Liboff RL. (2003) Symbiotic Fusion Through Single-Crystal Li6D International Journal of Theoretical Physics. 42: 757-773 |
| Liboff RL. (2002) Convex polyhedra quantum billiards in R n Quarterly of Applied Mathematics. 60: 75-85 |
| Liboff RL. (2002) Complex hyperspherical equations, nodal-partitioning, and first-excited-state theorems in ℝ International Journal of Theoretical Physics. 41: 1957-1970 |
| Liboff RL, Weimann N, Porter MA. (2002) Prime quasientropy and quasichaos International Journal of Theoretical Physics. 41: 1389-1395 |
| Porter MA, Liboff RL. (2002) A Galërkin approach to electronic near-degeneracies in molecular systems Physica D: Nonlinear Phenomena. 167: 218-247 |
| Porter MA, Liboff RL. (2001) Chaos on the quantum scale: Simulations of atomic-scale billiards reveal chaotic phenomena that expand theory and applications, especially in nanotechnology American Scientist. 89: 532-537 |