Your search keyword '"Christophe George"' showing total 4 results

1. Dynamics of Systems with Large Number of Degrees of Freedom and Generalized Transformation Theory

Author

Françoise Henin, Christophe George, and Ilya Prigogine

Subjects

Density matrix, Multidisciplinary, Time evolution, Equations of motion, Observable, Statistical mechanics, Invariant (physics), symbols.namesake, Physical Sciences: Physics, Boltzmann constant, symbols, Hamiltonian (quantum mechanics), Mathematical physics, Mathematics

Abstract

A generalized transformation theory which leads to a non-Hamiltonian description of dynamics is introduced. The transformation is such that all averages of observables remain invariant. However, the time evolution of the density matrix can no longer be expressed in terms of a commutator with the Hamiltonian. Therefore such transformations are not canonical in the usual sense. An explicit „two components” representation of the equations of motion is given which has the following properties: ( a ) each of the components satisfies a separate equation of motion, and ( b ) one component satisfies a kinetic equation of a generalized Boltzmann type. We obtain, therefore, the most remarkable result that the relation between dynamics and statistical mechanics (or thermodynamics) takes a specially transparent and simple form: thermodynamics appears in a precise sense as the random phase approximation of dynamics. Other problems such as the meaning of diagonalization of the Hamiltonian and definition of excitations will be treated in a forthcoming paper.

Published

1970

2. The Macroscopic Level of Quantum Mechanics

Author

Ilya Prigogine, L. Rosenfeld, and Christophe George

Subjects

Physics, Quantization (physics), Mesoscopic physics, Multidisciplinary, Mécanique quantique classique et relativiste, Quantum dynamics, Quantum mechanics, Macroscopic quantum phenomena, Statistical mechanics, Quantum number, Quantum dissipation, Introduction to quantum mechanics

Abstract

NOTXT, info:eu-repo/semantics/published

Published

1972

3. Physical particle representation and generalized transformation theory

Author

Françoise Henin, Christophe George, Ilya Prigogine, Paul Mandel, and J. W. Turner

Subjects

Physics, education.field_of_study, Multidisciplinary, Thermodynamic equilibrium, Population, Arbitrary function, Unitary state, Uncorrelated, Entropy (classical thermodynamics), Theoretical physics, Diagonal matrix, Physical Sciences: Physics, Dissipative system, education

Abstract

The investigation of the recently described generalized transformation theory which leads to a non-Hamiltonian description of dynamics is pursued. The concept of generalized unitary transformations of superoperators is introduced and a specific class of transformations studied. For nondissipative systems it is equivalent to the usual unitary transformations that diagonalize the Hamiltonian. The important point is that this class of transformations remains meaningful for dissipative systems, hence a new representation of dynamics that we shall call the „physical particle” representation. It has the following properties: ( a ) The energy (or an arbitrary function of the energy) is represented by a diagonal matrix. ( b ) In the (0) II space (see these Proceedings , 65 , 789 (1970)) corresponding to the coherent processes, the evolution can be described in terms of the changes in population of the physical particles. ( c ) At thermodynamic equilibrium, the physical particles are uncorrelated and behave as independent entities; the entropy has a purely combinatorial meaning. A full description of dynamics in this representation will be given in a forth-coming paper.

Published

1970

4. Dissipative processes, quantum States, and entropy

Author

Ilya Prigogine, Christophe George, and Françoise Henin

Subjects

Multidisciplinary, Quantum state, Chemistry, Physical Sciences: Physics, Dissipative system, Nanotechnology, Statistical physics

Published

1968