Gravity from Poincare Gauge Thoery of the Fundamental Particles. III : Weak Field Approximation
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概要
- 論文の詳細を見る
We apply the weak field approximation to the most general gravitational field equations in Poincare gauge theory. The weak gravitational field h_<μν> is a multimass field obeying a fourth-order field equation. In the Newtonian approximation we show that there are two routes to arrive at the Newtonian potential. The torsion field is decomposed into six irreducibe building blocks with spin^<parity>, 2^+, 2^-, 1^+, 1^-, 0^+ and 0^-, each of which obeys the Klein-Gordon equation. Finally, we construct a possible candidate for the massless graviton field which obeys the linearized Einstein equation.
- 理論物理学刊行会の論文
- 1980-10-25
著者
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Shirafuji Takeshi
Physics Department Saitama University
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HAYASHI Kenji
Max-Planck-Institut fur Physik und Astrophysik Munchen
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SHIRAFUJI Tadahiko
Department of Physics, Chiba University
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Hayashi K
北海道大学水産科学研究科
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HAYASI Kenji
Institute of Physics, University of Tokyo
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Hayasi Kenji
Institute Of Physics University Of Tokyo
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Hayashi Kenji
Institute Of Physicsm Kitasato University
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Hayashi Kenji
Max-planck Institut Fur Physik Und Astrophysik
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Hayashi Kenji
Institute Of Biological Sciences University Of Tsukuba
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HAYASHI Kenji
Institute of Physics, University of Tokyo
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HAYASHI Kenji
Institute of Physics, Kitasato University
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HAYASHI Kenji
Institute of Physics, Tokyo University
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HAYASHI kiyoshi
Faculty of Commerce, Meiji University
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