Abstract
It is analyzed the possibility of applying to classical mechanics perturbative methods, developed within the framework of quantum mechanics, such as the Feynman-Dyson methods. In this connection, the concept of phase-space, basic to the Hamiltonian formalism of classical mechanics, plays a crucial role, providing the formal apparatus for a unifying view to classical and quantum mechanics.
Dattoli, G;
Torre, A
[1]
- ENEA, Frascati (Italy). Centro Ricerche Energia - Area Energia e Innovazione
Citation Formats
Dattoli, G, and Torre, A.
Quantistic perturbative methods applied to classical mechanics; Tecniche perturbative di tipo quantistico nell`ambito della meccanica classica.
Italy: N. p.,
1994.
Web.
Dattoli, G, & Torre, A.
Quantistic perturbative methods applied to classical mechanics; Tecniche perturbative di tipo quantistico nell`ambito della meccanica classica.
Italy.
Dattoli, G, and Torre, A.
1994.
"Quantistic perturbative methods applied to classical mechanics; Tecniche perturbative di tipo quantistico nell`ambito della meccanica classica."
Italy.
@misc{etde_10123588,
title = {Quantistic perturbative methods applied to classical mechanics; Tecniche perturbative di tipo quantistico nell`ambito della meccanica classica}
author = {Dattoli, G, and Torre, A}
abstractNote = {It is analyzed the possibility of applying to classical mechanics perturbative methods, developed within the framework of quantum mechanics, such as the Feynman-Dyson methods. In this connection, the concept of phase-space, basic to the Hamiltonian formalism of classical mechanics, plays a crucial role, providing the formal apparatus for a unifying view to classical and quantum mechanics.}
place = {Italy}
year = {1994}
month = {Nov}
}
title = {Quantistic perturbative methods applied to classical mechanics; Tecniche perturbative di tipo quantistico nell`ambito della meccanica classica}
author = {Dattoli, G, and Torre, A}
abstractNote = {It is analyzed the possibility of applying to classical mechanics perturbative methods, developed within the framework of quantum mechanics, such as the Feynman-Dyson methods. In this connection, the concept of phase-space, basic to the Hamiltonian formalism of classical mechanics, plays a crucial role, providing the formal apparatus for a unifying view to classical and quantum mechanics.}
place = {Italy}
year = {1994}
month = {Nov}
}