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Measurement of the S01 neutron-neutron effective range in neutron-deuteron breakup

We report the most precise determination of the S01 neutron-neutron effective range parameter (rnn) from neutron-neutron quasifree scattering in neutron-deuteron breakup. The experiment setup utilized a collimated beam of 15.5 MeV neutrons and an array of eight neutron detectors positioned at angles...

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Bibliographic Details
Published in:Physics letters. B 2022-12, Vol.835, p.137557
Main Authors: R.C. Malone, A.S. Crowell, L.C. Cumberbatch, B.A. Fallin, F.Q.L. Friesen, C.R. Howell, C.R. Malone, D.R. Ticehurst, W. Tornow, D.M. Markoff, B.J. Crowe, H. Witała
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Language:English
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Summary:We report the most precise determination of the S01 neutron-neutron effective range parameter (rnn) from neutron-neutron quasifree scattering in neutron-deuteron breakup. The experiment setup utilized a collimated beam of 15.5 MeV neutrons and an array of eight neutron detectors positioned at angles sensitive to several quasifree scattering kinematic configurations. The two neutrons emitted from the breakup reaction were detected in coincidence and time-of-flight techniques were used to determine their energies. The beam-target luminosity was measured in-situ with the yields from neutron-deuteron elastic scattering. Rigorous Faddeev-type calculations using the CD Bonn nucleon-nucleon potential were fit to our cross-section data to determine the value of rnn. The analysis was repeated using a semilocal momentum-space regularized N4LO+ chiral interaction potential. We obtained values of rnn=2.86±0.01(stat)±0.10(sys) fm and rnn=2.87±0.01(stat)±0.10(sys) fm using the CD Bonn and N4LO+ potentials, respectively. Our results are consistent with charge symmetry and previously reported values of rnn.
ISSN:0370-2693
DOI:10.1016/j.physletb.2022.137557