Quantum Theory and General Relativity
スポンサーリンク
概要
- 論文の詳細を見る
A Method of establishing a quantum theory of atomic systems interacting with a c-number gravitational field is proposed. This method is a most straightforward generalization of the approach adopted for the representation of the general relativity in terms of the Vierbein. To each world point a local Hilbert-space is assigned. The connection between Hilbert-space defined at a pair of adjacent points is given by an equation with a non-integrable property. Some discussions are made on this non-integrable equation.
- 理論物理学刊行会の論文
- 1965-03-25
著者
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