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Neutrino Direction Sensitivity Study | Double Chooz LAUNCH Workshop

Explore directional sensitivity in neutrino measurements at the Double Chooz LAUNCH Workshop in Heidelberg. Analyze the separation of sources, reactor monitoring, and analytical estimates using maximum likelihood analysis.

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Neutrino Direction Sensitivity Study | Double Chooz LAUNCH Workshop

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  1. Directional Sensitivity in Double Chooz LAUNCH Workshop Heidelberg 23.3.2007 Kathrin A. Hochmuth Max-Planck-Institut für Physik

  2. Outline • Neutrino Direction Measurements • CHOOZ measurements • Two Reactors - separation of sources? - monitoring power output? • analytical estimates and maximum likelihood analysis - for Double Chooz setup with 30° separation - for hypothetical setup with 90° separation in collaboration with M. Lindner and G. Raffelt

  3. Neutrino Direction = average displacement for reactor energies ~ 1.9 cm Note: uncertainty of locating the positron annihilation and neutron absorption points is large! Uncertainty of displacement

  4. Setup CHOOZ determined each of the angles with s ~ 12° with 2,500 events Double Chooz near detector: 160,000 events per year

  5. One Reactor CHOOZ event rate (2,500); true values q f

  6. One Reactor CHOOZ event rate (2,500); true values q f Double Chooz event rate (160,000)

  7. Two Reactors ??? 160,000 events Single Reactor Double Chooz 30° separation Hypothetical setup 90° separation

  8. Probability Distribution Function tilt angle w.r.t x-y plane; relative strength of the reactors, where (assume for now: ) displacement: 1.9 cm uncertainty of the displacement: 20 cm Separation angle Central angle For Double Chooz

  9. Important Points y-axis distribution gives information on the angular separation x-distribution gives only information on the center of the distribution No distinction from a single Gauss; >10 Mio events needed

  10. Important Points y-axis distribution gives information on the angular separation x-distribution gives only information on the center of the distribution No distinction from a single Gauss; >10 Mio events needed

  11. Non-Gaussianity Good resolution Bad resolution No clear distinction because cosf1~1

  12. Angular Separation of 2 Sources 160,000 events Non-Gaussian behavior No distinction from 0° Reactor 1 Separation angle Central angle well determinded x-distribution behaves like a single Gaussian

  13. 7 years Double Chooz Reactor 1 Separation angle 3 s distinction possible after 7 years

  14. Hypothetical 90° separation for 160,000 events: Clear separation of the angles f1,f2 with s1~3.2° central angle: sc~2.3° • separation angle: s~4.6° Note:

  15. Reactor Strength Reactor strength 1 year Double Chooz: 160,000 events: 5 years: f1=45° after 1 year: True value: b1=b2=0.5 after 1 month

  16. Conclusions • Separation of the two Double Chooz reactors challenging, because of small separation angle and • 3 s separation of the two Double Chooz reactors after 7 years • Separation Potential increases with increasing angles=> clear distinction for 90° separation after 1 year • Possible to monitor the strength of each individual reactor; for 1 year Double Chooz with

  17. References M. Apollonio et al.(CHOOZ Collaboration), Phys.Rev.D 61 (2000) 012001 [hep-ex/9906011]. M. Apollonio et al. Eur.Phys.J. C 27 (2003) 331 [hep-ex/0301017] F. Ardellier et al.(Double Chooz Collaboration) hep-ex/0606025v4 (26 October 2006). P. Vogel and J. F. Beacom, Phys. Rev. D 60 (1999) 053003 H. O. Back et al. (Borexino Collaboration),physics/0408032. P. H. Frampton and P. Vogel, Phys.Rept. 82 (1982) 339. K. A. Hochmuth et al, Earth Moon Planets 99:253-264,2006 ,[hep-ph/0610048]. K. A. Hochmuth et al, Astropart.Phys.27:21-29,2007 ,[hep-ph/0509136].

  18. Thank you! N U L A C H

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