Linear Approximation for the Lorentz Gauge Field

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概要

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• Properties of the Lorentz gauge field in vacuum are examined in the free field approximation. We show that the Lorentz gauge field can be decomposed into six diagonalized fields, each of which obeys the Klein-Gordon equation and the irreducibility condition. We find that these diagonalized gauge fields can be massive, and that their spin and parity are 0^+,0^-,1^+,1^-,2^+ and 2^-. From the conditions for the Hamiltonian to be positive and for masses to be real, we get some restrictions on parameters appearing in the Lagrangian.

• 理論物理学刊行会の論文
• 1981-08-25

著者

• Nakano T

  Department Of Physics Kyushu University:(present Address)sasaguri Town Office

• Tamura Yoshinobu

  Theory And Computer Simulation Center National Institute For Fusion Science

• MIYAMOTO Shikao

  Nara Technical College

• NAKANO Tadao

  Department of Physics, Osaka City University

• OHTANI Teruya

  Kansai University of foreign Studies

• TAMURA Yoshinobu

  Taisho High School

• Nakano Tadao

  Department Of Physics Osaka City University

• Ohtani T

  Kansai Univ. Foreign Studies Hirakata Jpn

• TAMURA Yuichi

  Theory and Computer Simulation Center, National Institute for Fusion Science

• NAKANO Takuya

  Department of Physics, Kyushu University:(Present Address)Sasaguri Town Office

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