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Prog. Theor. Phys. Vol. 69 No. 4 (1983) pp. 1236-1240

[ Full Text PDF : FREE ACCESS (180K) ]

Linear Approximation for the Massless Lorentz Gauge Field

Shikao Miyamoto, Tadao Nakano,* Teruya Ohtani** and Yoshinobu Tamura***

Nara Technical College, Yamato-Koriyama, Nara 639-11
*Department of Physics, Osaka City University, Osaka 558
**Kansai University of Foreign Studies, Hirakata 573
***Taisho High School, Osaka 551

(Received October 7, 1982)

Abstract:

We study the massless Lorentz gauge field in the linear approximation. We find that the axial-vector component of the Lorentz gauge field, which is the only component interacting with the Dirac field directly, can propagate as a massless field. In this case no other component appears are independent field. The equation of this massless field is similar to the Maxwell equation.


URL : http://ptp.ipap.jp/link?PTP/69/1236/
DOI : 10.1143/PTP.69.1236

[ Full Text PDF : FREE ACCESS (180K) ] Citation:

References:

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Citing Article(s) :

  1. Progress of Theoretical Physics Vol. 71 No. 3 (1984) pp. 633-647 :
    Massless Torsion Fields. I
    Masayasu Fukui
  2. Progress of Theoretical Physics Vol. 73 No. 1 (1985) pp. 75-83 :
    Massless Torsion Fields. II
    Masayasu Fukui and Junnichi Masukawa
  3. Progress of Theoretical Physics Vol. 73 No. 4 (1985) pp. 874-883 :
    Massless Lorentz Gauge Field Consistent with Einstein's Gravitation Theory
    Kazumi Fukuma, Shikao Miyamoto, Tadao Nakano, Teruya Ohtani and Yoshinobu Tamura
  4. Progress of Theoretical Physics Vol. 78 No. 6 (1987) pp. 1470-1486 :
    Level Shift of Hyperfine Structure Due to the Lorentz Gauge Field
    Tetsuo Fukui, Kazumi Fukuma, Shikao Miyamoto, Tadao Nakano, Teruya Ohtani and Yoshinobu Tamura
  5. Progress of Theoretical Physics Vol. 81 No. 2 (1989) pp. 523-540 :
    A Spinor Approach to Poincaré Gauge Theory
    Shin-ichi Nakariki
  6. Progress of Theoretical Physics Supplement No.86 (1986) pp. 297-303 :
    Lorentz Gauge Field and Spin Angular-Momentum
    Tadao Nakano and Teruya Ohtani

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