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Review of Neutrino Coherent Scattering Belkis Cabrera-Palmer March 20, 2009. Sandia National Laboratories Lawrence Livermore National Laboratory. Outline. physics of neutrino coherent scattering cross section and rates NPP monitoring solar neutrino background.
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Review of Neutrino Coherent Scattering Belkis Cabrera-Palmer March 20, 2009 Sandia National Laboratories Lawrence Livermore National Laboratory
Outline • physics of neutrino coherent scattering • cross section and rates • NPP monitoring • solar neutrino background
Neutrino Coherent Scattering ,k’ ,k Z R N, q It has never been observed!
q << • Same for all neutrino flavors R, M, Z,N • Cross section enhanced by N2 (N is # of neutrons) T, • Estimation of events for reactor neutrinos: Cross section • Coherence applies when momentum transfer 1/R(Germanium) ~ 38 MeV 1/R(Argon) ~ 47 MeV
I ~ hundreds of eV Challenges: small recoil energy and smaller ionization energy • the nucleus recoil energy is • for heavy nuclei, the recoil energy is in the few keVs: • quenching: detectable ionization energy is just a fraction of the recoil energy
the cross section increases with neutrino energy: but …there are fewer reactor neutrinos at higher energies • the detectable recoil energy threshold constraints the access to lower neutrino energies, since, to produce an event with energy I, the minimum neutrino energy is Germanium target Challenges: fewer reactor neutrinos at larger energies
Uranium yields 65% more neutrinos with E>8MeV than Plutonium 52% Uranium fission produces 67% more events with I> 300eV than Plutonium fission 57% Estimation of Events per eV, day, kg(Ge) vs. the minimum neutrino energy E that produces recoils with Reactor neutrino spectra Neutrinos per MeV fission from Uranium and Plutonium From: Klapdor, Metzinger PLB 112,1 (1982)
Sensitivity to NPP fuel composition About 20% variation in total events during a Nuclear Power Plant fuel cycle ~20 %
Estimated number of counts/day kg above threshold with a Germanium Detector A 100eV-improvement in detector threshold produces a large reduction in detector size. Scale of a Coherent Scattering Detector
Estimated counts/day kg above threshold with Germanium The solar neutrino background is comparable with the reactor neutrino signal at distances >1.5 km from the reactor core. The solar background prevents or at least greatly complicates using coherent scatter detectors as standoff reactor monitors beyond a kilometer or so. Comparison to solar neutrino background Detector
Conclusions • Neutrino Coherent Scattering … • is hard to detect since the detectable fraction of the released energy is less than few hundreds of eV, • requires detector with very low noise threshold, • can be used for NPP monitoring since it is sensitive to fuel composition.