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RELATIVISTIC HAMILTONIAN SYSTEM OF A PARTICLE AND RELATIVISTIC HEISENBERG'S EQUATION
Author(s) -
K.H. Tzou
Publication year - 1947
Publication title -
wuli xuebao
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.199
H-Index - 47
ISSN - 1000-3290
DOI - 10.7498/aps.7.9
Subject(s) - dirac equation , relativistic quantum mechanics , physics , two body dirac equations , relativistic wave equations , klein–gordon equation , relativistic particle , heisenberg picture , theory of relativity , hamiltonian (control theory) , relativistic mechanics , mathematical physics , dirac sea , classical mechanics , wave equation , quantum mechanics , electron , quantum , dirac fermion , mathematics , quantum dissipation , fermion , mathematical optimization , nonlinear system
In this paper, as suggested by the classical canonical equations, a new set of the corresponding relativistic equations is set up. Therefrom a relativistic form of Heisenberg's equation is deduced. The rclalivistic Hamiltonian system of a particle according to the formulation here established has been fully discussed and by following it, however, Diracs equation appears naturally as a necessary form of relativistic wave equation tor electron in quantum mechanics. The process of taking square root in Dirac's theory is seen to have its classical analogy. Finally, some applications of the relativistic Heisenberg's equation to Dirac's theory have been discussed and it has thereby been pointed out that this equation brings some quantities to being more symmetrical in the relativity sense and also some more general than those the non-relativistic equation can introduce.

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