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2024年10月30日

Yukawa Corrections from PGBs in OGTC Model to the Process γγ→bb

  • The Yukawa corrections from the pseudo-Goldstone bosons (PGBs) in the one generation technicolor (OGTC) model to the process γγ→b are calculated. We find the corrections from the PGBs to the cross section γγ→b are more than 10% in the certain parameter values region. The maximum of the relative corrections to the process e+e→γγ→b may reach -51% in laser back scattering photos mode,and is only -17.9% in beamstrahlung photons mode. The corrections are greatly larger the contributions from the relevant particles in the standard model and the supersymmetric model. It can be considered as a signatures of finding the technicolor at the next-generation high energy photons collision.
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Get Citation
HUANG JinShu, SONG TaiPing, SONG HaiZhen and LU GongRu. Yukawa Corrections from PGBs in OGTC Model to the Process γγ→bb[J]. Chinese Physics C, 2000, 24(10): 901-907.
HUANG JinShu, SONG TaiPing, SONG HaiZhen and LU GongRu. Yukawa Corrections from PGBs in OGTC Model to the Process γγ→bb[J]. Chinese Physics C, 2000, 24(10): 901-907. shu
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Received: 1999-07-01
Revised: 1900-01-01
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Yukawa Corrections from PGBs in OGTC Model to the Process γγ→bb

    Corresponding author: HUANG JinShu,
  • Department of Physics,He'nan Nanyang Normal College, Nanyang 473061,China2 Department of Physics,He'nan Normal University,Xinxiang 453002,China

Abstract: The Yukawa corrections from the pseudo-Goldstone bosons (PGBs) in the one generation technicolor (OGTC) model to the process γγ→b are calculated. We find the corrections from the PGBs to the cross section γγ→b are more than 10% in the certain parameter values region. The maximum of the relative corrections to the process e+e→γγ→b may reach -51% in laser back scattering photos mode,and is only -17.9% in beamstrahlung photons mode. The corrections are greatly larger the contributions from the relevant particles in the standard model and the supersymmetric model. It can be considered as a signatures of finding the technicolor at the next-generation high energy photons collision.

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