Bremsstrahlung Radiative Correction in QED at Finite Temperature

  • Based fully on the finite temperature field theory, we calculate the Feynman diagram to analyse the new infrared divergence caused by the temperature effect in the bremsstrahlung process. It turns out that both of the infrared divergence at the zero and finite temperature can be cancelled by the identical Feynman diagram of virtual processes. We derive the probability of radiating a net energy ω in bremsstrahlung processes and the result in Eikonal approximation is the same as that obtained in the semi-classical approximation.
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XIAO Jun and WANG En-Ke. Bremsstrahlung Radiative Correction in QED at Finite Temperature[J]. Chinese Physics C, 2001, 25(8): 772-779.
XIAO Jun and WANG En-Ke. Bremsstrahlung Radiative Correction in QED at Finite Temperature[J]. Chinese Physics C, 2001, 25(8): 772-779. shu
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Received: 2000-09-06
Revised: 1900-01-01
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Bremsstrahlung Radiative Correction in QED at Finite Temperature

    Corresponding author: XIAO Jun,
  • Institute of Particle Physics, Huazhong Normal University, Wuhan 430079, China

Abstract: Based fully on the finite temperature field theory, we calculate the Feynman diagram to analyse the new infrared divergence caused by the temperature effect in the bremsstrahlung process. It turns out that both of the infrared divergence at the zero and finite temperature can be cancelled by the identical Feynman diagram of virtual processes. We derive the probability of radiating a net energy ω in bremsstrahlung processes and the result in Eikonal approximation is the same as that obtained in the semi-classical approximation.

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