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L.A. Hamel 1 , M. Benoit 1 , B. Dönmez 2 , J.R. Macri 2 , M.L. McConnell 2 ,

L.A. Hamel 1 , M. Benoit 1 , B. Dönmez 2 , J.R. Macri 2 , M.L. McConnell 2 , T. Narita 3 , J.M. Ryan 2 , M. Whidholm 2. 1 Département de Physique, Université de Montréal 2 Space Science Center, University of New Hampshire, Durham 3 Departement of Physics, College of the Holy Cross.

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L.A. Hamel 1 , M. Benoit 1 , B. Dönmez 2 , J.R. Macri 2 , M.L. McConnell 2 ,

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  1. L.A. Hamel1, M. Benoit1, B. Dönmez2, J.R. Macri2, M.L. McConnell2, T. Narita3, J.M. Ryan2, M. Whidholm2 1 Département de Physique, Université de Montréal 2 Space Science Center, University of New Hampshire, Durham 3 Departement of Physics, College of the Holy Cross

  2. 2N instead of N2 channels • Rely on good charge sharing between X and Y • Previous model (225 m pitch) has shown poor sharing • Improved simulation for device optimization

  3. interaction sites from GEANT4 • Energy deposited at each site is supposed a small 3-D Gaussian e-h distribution

  4. Field maps from Comsol multiphysics. • Results shown for the 225 µm model, with a grid.

  5. Weighting potentials

  6. To download the animation : www.lps.umontreal.ca/~mbenoit/R12-6.zip

  7. 225µm model

  8. 225µm model

  9. 225µm model Experimental Result (Co 57) Simulated result 122 keV, Co57

  10. 225µm model Ba-133 Cs-137

  11. 150 microns pitch

  12. 150µm model Co-57

  13. Combination of repulsion, diffusion, trapping, and accurate field and weighting potentials yields to better predictions • Reproduces results for 225 µm pitch • Predicts good sharing for 150 µm pitch

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