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Dear Andrey Elagin,

The submission of your abstract has been successfully processed.

Abstract submitted: https://indico.cern.ch/event/192695/call-for- abstracts/my-abstracts.

Status of your abstract: https://indico.cern.ch/event/192695/call- for-abstracts/371/.

See below a detailed summary of your submitted abstract:

Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics

Submitted by: ELAGIN, Andrey

Submitted on: 28 February 2014 17:09

Title: Measuring directionality in double-beta decay and neutrino interactions with kiloton-scale scintillation detectors

Abstract content We present initial studies of a technique for separating scintillation and Cherenkov light in a large liquid scintillator detector in order to reconstruct directionality for electrons with energies typical of neutrino-electron scattering (5 MeV) and double-beta decay (2.1 MeV and 1.4 MeV).

On average scintillation light is delayed with respect to the direct Cherenkov light due to chromatic dispersion and the finite time of the scintillation processes; early light thus contains directional information. Using a GEANT4 simulation of a 6.5m-radius spherical detector with 100% coverage of photodetectors having transit-time-spread (TTS) of 100 ps, we have shown that a time cut on the early light is effective at isolating the directional light, improving the ratio of Cherenkov to scintillation light from $R_{c/s}$=0.02 to $R_{c/s}$=0.63 for 5 MeV electrons originating at the detector center. This ratio is degraded by a factor of 2.5 if typical photomultipliers with TTS=1.28 ns are used. The ratio for TTS=100 ps can be further improved by a factor of 1.6 by using red-enhanced photocathodes, or by 1.4 by using narrow-emission scintillators.

We discuss a technique for extracting particle direction, and evaluate several detector developments in timing, photodetector spectral response, and scintillator emission spectra that could be used to realize direction reconstruction in a kiloton-scale detector.

Summary See http://arxiv.org/abs/1307.5813

Primary Authors: ABERLE, Christoph (University of California, Los Angeles) aberlec@physics.ucla.edu ELAGIN, Andrey (University of Chicago) elagin@hep.uchicago.edu FRISCH, Henry (University of Chicago) frisch@hep.uchicago.edu WETSTEIN, Matthew (University of Chicago) mwetstein@uchicago.edu WINSLOW, Lindley (University of California, Los Angeles) lwinslow@physics.ucla.edu

Co-authors:

Abstract presenters: ELAGIN, Andrey

Track classification: Sensors: 1e) Novel technologies Experiments: 2c) Detectors for neutrino physics

Presentation type: Oral

Comments: