A GW-based many-body approach to electrical conductivity in warm dense matter yields lower DC conductivity for beryllium at low temperatures from improved transition energies and at high temperatures from electron-electron scattering.
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Capturing many-body effects in electrical conductivity of warm dense matter
A GW-based many-body approach to electrical conductivity in warm dense matter yields lower DC conductivity for beryllium at low temperatures from improved transition energies and at high temperatures from electron-electron scattering.