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Liquid Scintillation Detectors for High Energy Neutrinos John G. Learned Department of Physics and Astronomy, University of Hawaii See: arXiv:0902.4009.

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Presentation on theme: "Liquid Scintillation Detectors for High Energy Neutrinos John G. Learned Department of Physics and Astronomy, University of Hawaii See: arXiv:0902.4009."— Presentation transcript:

1 Liquid Scintillation Detectors for High Energy Neutrinos John G. Learned Department of Physics and Astronomy, University of Hawaii See: arXiv:0902.4009 “High Energy Neutrino Physics with Liquid Scintillation Detectors”arXiv:0902.4009

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3 The Fermat Surface Central idea: –Scintillation radiation is isotropic –Large (many kiloton) scintillation detector PMTs would have about > 100 PE/PMT @ 1 GeV –First hit is very close to Fermat Surface (Cherenkov and spheres) –Huge statistics determining surface. –Large difference between equi-charge and equi-time surfaces reflect topology of interaction (i.e. muon or electron). –There is much more information… how complex a topology can we extract? High Energy ~1 GeV neutrino interactions may thus be studied Potential for long baseline experiments, and many others Does not interfere with lower energy (MeV) physics (e.g. reactors, geonus, supernovae, etc.)

4 Fermat and Equi-Charge Surfaces First hit times Charge Contours

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7 Simple Point Fits give Center of Track and point Near Origin Muon angular resolution to <1 Degree e  10 sigma better fit to line than shower profiles Vertex location to few cm with first point fit.

8 Much Information in Time Distribution of Hits (PMT Waveform) 1 GeV Muon1 GeV e Shower Sample PMT hit time distributions from top of detector Given real world problems (PMTs, scint lifetime, scattering….), how much of this can we utilize? Needs detailed modeling.

9 Applications Long Baseline with accelerators ~ 1 GeV –Hanohano with Tokai Beam? –LENA with CERN beam? –New DUSEL Experiment with Fermilab Beam? Nucleon Decay (high free proton content) –See details of decays such as Kaon modes Particle Astrophysics (low mass WIMPS,…) All the Low Energy Physics (geonus, reactor studies, monitoring, solar neutrinos…..) unimpeded!

10 Outlook New view of large LS detectors as capable of detailed neutrino physics Work in progress to try and strip out atmospheric neutrino interactions in KamLAND Simulations and laboratory studies needed for progress. Appears to open new avenue for for LS detector and neutrino physics.

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