Mastrocinque, Giuseppe Classical and quantum Hamilton formalisms for the mechanics of the Bernoulli oscillators II - Quantum framework. In: LXXXVIII Congresso Nazionale S.I.F.-Società Italiana di Fisica, Settembre 2002, Alghero. (Unpublished)

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Item Type: Conference or Workshop Item (Paper)
Title: Classical and quantum Hamilton formalisms for the mechanics of the Bernoulli oscillators II - Quantum framework
Creators:
Creators
Email
Mastrocinque, Giuseppe
mastroci@unina.it
Number of Pages: 19
Department: Scienze fisiche
Event Type: Congresso
Event Title: LXXXVIII Congresso Nazionale S.I.F.-Società Italiana di Fisica
Event Location: Alghero
Event Dates: Settembre 2002
Number of Pages: 19
Keywords: Classical and quantum Hamilton formalisms
Settori scientifico-disciplinari del MIUR: Area 02 - Scienze fisiche > FIS/03 - Fisica della materia
Additional information: Elaborato a partire da una comunicazione dell'autore alla Società Italiana di Fisica, LXXXVIII Congresso Nazionale, Alghero 2002, Sez. VI. Inedito.
Date Deposited: 07 Feb 2012 15:40
Last Modified: 30 Apr 2014 19:46
URI: http://www.fedoa.unina.it/id/eprint/8489

Collection description

In a few previous papers, we discussed the fundamentals of the so-called Bernoulli oscillators physics. The Bernoulli oscillators are classical entities whose behavior is influenced by a ''hidden'' degree of freedom, in its turn excited by a quantum vacuum action. The investigation brought us - within assessed approximations and limits (uni-dimensional motion) - to propose a Newtonian motion background below the matter-wave behavior. In the present couple of papers, we give a formal description of the Bernoulli oscillators classical degree of freedom mechanics, by the means of both a classical (in paper I) and a quantum-like (in the present paper II) Hamilton formalisms. The quantum procedure operates on what we call the Bernoulli Hamiltonian functions. There are many different sets of parameters bringing the quantum formalism to the desired fits, so that the most interesting (at the present investigative stage) cases are discussed. We provide finally an ''optimal'' framework, operating on the particle-vacuum primary interaction (a source context to us, called PHME), and we show it able to take out the distant effects of the interaction. This procedure describes our contexts with improved compactness and interpretability. Physical interpretation matching the mentioned formalisms is provided step-by-step.

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