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The Dirac equation, the concept of quanta, and the description of interactions in quantum electrodynamics

bacelar valente, mario (2010) The Dirac equation, the concept of quanta, and the description of interactions in quantum electrodynamics. [Preprint]

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    Abstract

    In this article the Dirac equation is used as a guideline to the historical emergence of the concept of quanta, associated with the quantum field. In Pascual Jordan’s approach, electrons as quanta result from the quantization of a classical field described by the Dirac equation. With this quantization procedure – also used for the electromagnetic field – the concept of quanta becomes a central piece in quantum electrodynamics. This does not seem to avoid the apparent impossibility of using the concept of quanta when interacting fields are considered together as a closed system. In this article it is defended that the type of analysis that leads to so drastic conclusions is avoidable if we look beyond the mathematical structure of the theory and take into account the physical ideas inscribed in this mathematical structure. In this case we see that in quantum electrodynamics we are not considering a closed system of interacting fields, what we have is a description of the interactions between distinct fields. In this situation the concept of quanta is central, the Fock space being the natural mathematical structure that permits maintaining the concept of quanta when considering the interaction between the fields.


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    Item Type: Preprint
    Keywords: Dirac equation, S-matrix divergence, Haag theorem, quanta, Fock space
    Subjects: Specific Sciences > Physics > Quantum Field Theory
    Depositing User: mario bacelar valente
    Date Deposited: 02 Nov 2010 21:44
    Last Modified: 02 Nov 2010 21:44
    Item ID: 8366
    URI: http://philsci-archive.pitt.edu/id/eprint/8366

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