Status of the mathematical and physical studies on the Lie-admissible formulations on July 1979, with particular reference to the strong interactions
The first part of the paper presents a reveiw of the mathematical studies on Lie-admissible algebras conducted (a) via the theory of abstract algebras; (b) via a Lie-admissible generalization of Lie's theory, and (c) via a symplectic-admissible generalization of the symplectic geometry. The second part presents a review of the physical applications in: Newtonian mechanics; classical field theory; classical statistical mechanics; quantum mechanics; quantum field theory; and quantum statistical mechanics; with specific applications, such as: Bose-expansion theory in nuclear physics; renormalization theory; broken unitary symmetries for the classification of hadrons; etc. In the third part a number of open physical and mathematical problems are outlined.
- Research Organization:
- Harvard Univ., Cambridge, MA
- OSTI ID:
- 6760598
- Report Number(s):
- CONF-7908175-
- Journal Information:
- Hadronic J.; (United States), Vol. 2:6; Conference: 2. workshop on Lie-admissible formulations, Cambridge, MA, USA, 1 Aug 1979
- Country of Publication:
- United States
- Language:
- English
Similar Records
Lie-admissible structure of classical field theory
Experimental, theoretical, and mathematical elements for a possible Lie-admissible generalization of the notion of particle under strong interactions
Related Subjects
71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
LIE GROUPS
ALGEBRA
STRONG INTERACTIONS
CLASSICAL MECHANICS
FIELD THEORIES
GEOMETRY
HADRONS
NUCLEAR PHYSICS
QUANTUM MECHANICS
RENORMALIZATION
REVIEWS
STATISTICAL MECHANICS
SYMMETRY BREAKING
USES
BASIC INTERACTIONS
DOCUMENT TYPES
ELEMENTARY PARTICLES
INTERACTIONS
MATHEMATICS
MECHANICS
PHYSICS
SYMMETRY GROUPS
645204* - High Energy Physics- Particle Interactions & Properties-Theoretical- Strong Interactions & Properties
658000 - Mathematical Physics- (-1987)
645400 - High Energy Physics- Field Theory
657002 - Theoretical & Mathematical Physics- Classical & Quantum Mechanics