Absolute normalization of the 13 C(α , n) 16 O cross section and resonance strengths below Eα = 2 MeV
Abstract
The 13 C(α , n) 16 O reaction is important as a neutron source for s-process nucleosynthesis and as a background in detectors used for reactor anti-neutrino and geoneutrino detection. The time-reversed process 16 O(n , α) 13 C is likewise important in neutron applications. In all of these scenarios, it is desirable to know the absolute cross section as well as possible. We have revisited previous measurements of this reaction that were performed using a polyethylene moderator and 3 He -filled proportional counters for neutron detection. Subsequent to these publications, the efficiency of the neutron detector was accurately characterized using a combination of Monte Carlo simulations and calibrated neutron sources. The Monte Carlo simulations include the effects of the reaction's kinematics and angular distribution on the efficiency. We have conducted a re-analysis of the above measurements using this improved detector efficiency. These reanalyzed data will be compared with existing measurements below Eα = 2 MeV.
Supported in part by U.S. D.O.E. under Grant Nos. DE-FG02-88ER40387 and DE-NA0002905.- Publication:
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APS April Meeting Abstracts
- Pub Date:
- 2018
- Bibcode:
- 2018APS..APRS11003B