Precision extraction of the deuteron electric polarizability via the Baldin sum rule with full low-energy coverage

Abstract

The photodisintegration cross sections of the deuteron have been systematically measured over the photon energy range of 2.33-19.65 MeV at the Shanghai Laser Electron Gamma Source (SLEGS). By applying the well-established Baldin sum rule to the newly obtained data, the sum of the electric and magnetic dipole polarizabilities of the deuteron is extracted for the first time based solely on a dense and continuous experimental dataset, yielding αE +\betaM = 0.7190.009stat0.014algo0.023syst fm3 . With theoretical values of the magnetic polarizability \betaM calculated from the pionless effective field theory, a new value of the electric polarizability is obtained as αE = 0.637 0.009stat 0.014algo 0.023syst 0.004theo fm3 , which is in excellent agreement with current theoretical predictions. This result resolves the previous discrepancy between experimental measurements from elastic scattering and theory, providing a high-precision benchmark for nuclear interaction models.