Abstract
After considering the vacuum polarization and the radiative correction of the nucleon-nucleon-pion (NN\ensuremath{\pi}) system, the one-pion exchange potential with pseudovector coupling or pseudoscalar coupling at finite temperature and finite density is investigated. By using finite-temperature and density quantum field theory, we find that both the pseudovector and pseudoscalar effective coupling of NN\ensuremath{\pi} decrease as temperature and/or density increase, and drop remarkably at high temperature regions and/or high density regions. At a critical temperature ${\mathit{T}}_{\mathit{c}}$ or a critical density ${\mathrm{\ensuremath{\rho}}}_{\mathit{c}}$, the effective NN\ensuremath{\pi} coupling diminishes to zero and the one-pion exchange potential vanishes.
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