J. R. Meier
University of Minnesota
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Featured researches published by J. R. Meier.
arXiv: Instrumentation and Detectors | 2013
P. Adamson; A. Sousa; A. Perch; K. Lang; A. Radovic; J. J. Evans; M. L. Marshak; M. M. Pfützner; J. R. Meier; J. A B Coelho; S. V. Cao; R. J. Nichol; R. Mehdiyev; Gavin Davies; J. K. Nelson; G. Pawloski; A. Kreymer; J. S. Huang; R. B. Patterson; S. G. Wojcicki; M. Proga; L. Whitehead; V. Paolone; J. P. Thomas; S. Schreiner; Manuel Calderon De La Barca Sanchez; A. Habig; D. Naples; A. Holin; J. Hartnell
This Letter of Intent outlines a proposal to build a large, yet cost-effective, 100 kton fiducial mass water Cherenkov detector that will initially run in the NuMI beam line. The CHIPS detector (CHerenkov detector In Mine PitS) will be deployed in a flooded mine pit, removing the necessity and expense of a substantial external structure capable of supporting a large detector mass. There are a number of mine pits in northern Minnesota along the NuMI beam that could be used to deploy such a detector. In particular, the Wentworth Pit 2W is at the ideal off-axis angle to contribute to the measurement of the CP violating phase. The detector is designed so that it can be moved to a mine pit in the LBNE beam line once that becomes operational.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2017
F. Amat; P. Bizouard; J. Bryant; T. J. Carroll; S. De Rijck; S. Germani; T. Joyce; B. Kriesten; M. L. Marshak; J. R. Meier; J. K. Nelson; A. Perch; M. M. Pfützner; R. Salazar; J. Thomas; J. Trokan-Tenorio; P. Vahle; R. Wade; C. Wendt; L. Whitehead; M. Whitney
The water at the proposed site of the CHIPS water Cherenkov detector has been studied to measure its attenuation length for Cherenkov light as a function of filtering time. A scaled model of the CHIPS detector filled with water from the Wentworth 2W pit, proposed site of the CHIPS deployment, in conjunction with a 3.2 m vertical column filled with this water, was used to study the transmission of 405 nm laser light. Results consistent with attenuation lengths of up to 100 m were observed for this wavelength with filtration and UV sterilization alone.
Proceedings of the 44th Annual Precise Time and Time Interval Systems and Applications Meeting | 2012
S. Römisch; S.R. Jefferts; V. Zhang; T.E. Parker; N. Ashby; P. Adamson; G. Barr; A. Habig; J. R. Meier; C. James; R. Nicol; R. Plunkett; C. Rosenfeld; R. Bumgarner; M. Christensen; J. Hirschauer; B. Fonville; S. Mitchell; A. McKinley; E. Powers; J. Wright; D. Matsakis
