Measurement of the Parity-Violating Asymmetry in the N to Transition at Low Q2
Abstract
We report the measurement of the parity-violating asymmetry in the N to transition via the e- + p → e- + + reaction at two different kinematic points with low four-momentum transfer Q2. Measurements were made with incident electron beam energies of 0.877 and 1.16 GeV, corresponding to Q2 values of 0.0111 and 0.0208 (GeV/c)2, respectively. These measurements put constraints on a low-energy constant in the weak Lagrangian, d, corresponding to a parity-violating electric-dipole transition matrix element. This matrix element has been shown to be large in the strangeness-changing channel, via weak hyperon decays such as + → pγ. The measurements reported here constrain d in the strangeness-conserving channel. The final asymmetries were -0.65 +- 1.00 (stat.) +- 1.02 (syst) ppm (parts per million) for 0.877 GeV and -3.59 +- 0.82 (stat.) +- 1.33 (syst. ppm for 1.16 GeV. With these results we deduce a small value for d, consistent with zero, in the strangeness-conserving channel, in contrast to the large value for d previously reported in the strangeness-changing channel.
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