Abstract
Mesonic corrections to the quadrupole moment of the deuteron are calculated by means of the method of Tamm and Dancoff. Only the two-nucleon and two-nucleon\char22{}one-meson amplitudes are included. The first is associated with a phenomenological wave function for the deuteron, the second yielding a correction to the quadrupole moment. A correction exists even in neutral scalar theory, and for pseudoscalar (pseudoscalar) symmetric theory the result in adiabatic approximation to second order is $\ensuremath{\Delta}Q=3.1$ percent or $\ensuremath{\Delta}Q=\ensuremath{-}0.7$ percent, depending on choice of wave functions (assuming $\frac{{g}^{2}}{4\ensuremath{\pi}}=10$). Contributions from multiple meson amplitudes are examined, and for a hard-core deuteron function they are shown to contribute only slightly.
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