TL;DR
This paper uses pionless effective field theory to calculate parity-violating amplitudes in neutron-deuteron interactions, providing numerical predictions for observables like spin rotation and asymmetries.
Contribution
It introduces a method to connect low energy constants to DDH coefficients and predicts specific parity-violating observables in nd scattering.
Findings
Predicted neutron spin rotation on deuteron target.
Predicted target and beam asymmetries in nd scattering.
Established a link between low energy constants and DDH coefficients.
Abstract
We calculate the parity-violating amplitudes in the nd interaction with pionless effective field theory to LO. Matching the parity violating low energy constants to the DDH coefficients we make numerical predictions for parity-violating observables. In particular we give predictions for the spin rotation of a neutron on a deuteron target, and target and beam asymmetries in nd scattering.
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