Theory of Invariant Variation and the Generalized Canonical Dynamics
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概要
- 論文の詳細を見る
A brief review is given on Noether's theory concerning the Lagrange formalism for systems that are invariant under some groups of transformations. Translation from the Lagrange to the canonical formalism is considered by following Rosenfeld's line of thought. In this respect some detailed discussion is made concerning the indeterminate functions which appear in the Hamiltonian as a result of the above mentioned invariance since these functions give rise to the violation of covariance if these are regarded as c-number functions. A method of getting rid of this difficulty is proposed in the case of the electromagnetic field.
- 理論物理学刊行会の論文
著者
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Utiyama Ryoyu
Department Of Physics Osaka University
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Utiyama Ryoyu
Department Of Physics University Of Osaka
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Utiyama Ryoyu
Department Of Physics Osaka Imperial University.
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UTIYAMA Ryoyu
Department of Physics, University of Osaka
関連論文
- Canonical Quantization of Non-Abelian Gauge Fields : Lorentz and Gauge Invariances
- Canonical Quantization of Non-Abelian Gauge Fields
- Gravitational Field as a Generalized Gauge Field
- Note on the Longitudinal and Scalar Photons
- Quantum Theory of Generalized Gauge Field
- Theory of Invariant Variation and the Generalized Canonical Dynamics
- Generalized Iso-Spin-Space; Generalized Gauge Transformation and Derivation of Meson
- On the Classical Theory of the Electron, I.
- Introduction
- General Relativistic Aspect of the Quantum Field Theory
- Canonical Theory of Quantum Electrodynamics
- On the Classical Theory of the Electron. II.
- Conserving Vector Current and Non-Linear Gauge Field
- On Weyl's Gauge Field. II
- On the Canonical Transformation in Quantum Theory.
- On Weyl's Gauge Field
- On the Interaction of Mesons with the Gravitational Field.I.
- On the Covergence of the Perturbation Method in the Quantum Field Theory
- On the Interaction of Mesons with the Gravitational Field. (II).
- Quantum Theory and General Relativity