Neutron-neutron scattering length from π+ photoproduction on the deuteron

Abstract

We discuss the possibility of extracting the neutron-neutron scattering length ann and effective range rnn from cross section data (d2σ/dMnn/dπ), as a function of the nn invariant mass Mnn, for π+ photoproduction on the deuteron (γ d π+nn). The analysis is based on a γ d π+nn reaction model in which realistic elementary amplitudes for γ p π+n, NN NN, and π N π N are built in. We show that Mnn dependence (lineshape) of a ratio R th, d2σ/dMnn/dπ normalized by dσ/dπ for γ pπ+ n and the nucleon momentum distribution inside the deuteron, at the kinematics with θπ=0 and Eγ 250 MeV is particularly useful for extracting ann and rnn from the corresponding data R exp. It is found that R exp with 2% error, resolved into the Mnn bin width of 0.04 MeV (corresponding to the pπ bin width of 0.05 MeV/c), can determine ann and rnn with uncertainties of 0.21 fm and 0.06 fm, respectively, for the case of ann=-18.9 fm and rnn=2.75 fm. The requirement of such narrow bin widths indicates that the momenta of the incident photon and the emitted π+ have to be measured with high resolutions. This can be achieved by utilizing virtual photons of very small Q2 from electron scattering at Mainz MAMI facility. The proposed method for determining ann and rnn from γ d π+ nn has a great experimental advantage over the previous one utilizing π- dγ nn for being free from the formidable task of controlling the neutron detection efficiency and its uncertainty.