Development of a Quality Assurance Process for the SoLid Experiment
Abstract
The SoLid experiment has been designed to search for an oscillation pattern induced by a light sterile neutrino state, utilising the BR2 reactor of SCKCEN, in Belgium. The detector leverages a new hybrid technology, utilising two distinct scintillators in a cubic array, creating a highly segmented detector volume. A combination of 5 cm cubic polyvinyltoluene cells, with LiF:ZnS(Ag) sheets on two faces of each cube, facilitate reconstruction of the neutrino signals. % The polyvinyltoluene scintillator is used as an target for the inverse beta decay of (), with the LiF:ZnS(Ag) sheets used for associated neutron detection. Scintillation signals are read out by a network of wavelength shifting fibres connected to multipixel photon counters. Whilst the high granularity provides a powerful toolset to discriminate backgrounds; by itself the segmentation also represents a challenge in terms of homogeneity and calibration, for a consistent detector response. The search for this light sterile neutrino implies a sensitivity to distortions of around (10)\% in the energy spectrum of reactor . Hence, a very good neutron detection efficiency, light yield and homogeneous detector response are critical for data validation. The minimal requirements for the SoLid physics program are a light yield and a neutron detection efficiency larger than 40 PA/MeV/cube and 50 \% respectively. In order to guarantee these minimal requirements, the collaboration developed a rigorous quality assurance process for all 12800 cubic cells of the detector. To carry out the quality assurance process, an automated calibration system called CALIPSO was designed and constructed.
Cite
@article{arxiv.1811.05244,
title = {Development of a Quality Assurance Process for the SoLid Experiment},
author = {Y. Abreu and Y. Amhis and G. Ban and W. Beaumont and S. Binet and M. Bongrand and D. Boursette and B. C. Castle and H. Chanal and K. Clark and B. Coupé and P. Crochet and D. Cussans and A. De Roeck and D. Durand and M. Fallot and L. Ghys and L. Giot and K. Graves and B. Guillon and D. Henaff and B. Hosseini and S. Ihantola and S. Jenzer and S. Kalcheva and L. N. Kalousis and M. Labare and G. Lehaut and S. Manley and L. Manzanillas and J. Mermans and I. Michiels and S. Monteil and C. Moortgat and D. Newbold and J. Park and V. Pestel and K. Petridis and I. Piñera and L. Popescu and D. Ryckbosch and N. Ryder and D. Saunders and M. -H. Schune and M. Settimo and L. Simard and A. Vacheret and G. Vandierendonck and S. Van Dyck and P. Van Mulders and N. van Remortel and S. Vercaemer and M. Verstraeten and B. Viaud and A. Weber and F. Yermia},
journal= {arXiv preprint arXiv:1811.05244},
year = {2019}
}
Comments
Submitted to JINST