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This document outlines the activities of Dubna's group on muon track reconstruction and the alignment of the Tracking Telescope (TT) conducted on April 27, 2007. Key focus areas include TT efficiency measurement, analysis of PMT pedestal stability, and the study of signal gains. The primary goal was to minimize distances for all muon tracks with advanced techniques, including 3D transformations and angle adjustments. Preliminary results indicate successful TT alignment, but further absolute measurements and tests are required to validate findings.
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TT Alignment A. Chukanov, Yu. Gornushkin, S. Zemskova LNGS, 27th of April 2007
Dubna’s group activity • Muon track reconstruction (TT alignment, brick finding) • TT alignment • Measurement of TT efficiency • Study of PMT pedestals stability • TODO study of PMT signals stability (gains)
TT Alignment with the help of muon tracks 3D Muon track Distances Hits Main goal – minimization of all distances for all tracks distances D vs Y
3 dimension transformation • 3 angles – around X, Y and Z axises • Shifting along Z-axis (beam line) • Shifting along X-axis • Non-linearity along strips X Z (beam) Y (strip)
Hits corrections in module • Reweghting of muon angle distribution • Reweghting of X and Y muon hits distribution XZ angle YZ angle
Rotation around beam line beam Strips dXa, cm
Rotation around strip line Strip dZa, cm beam
Shifting transverse to strips direction Strip dX, cm beam
Strips non-linearity Strip h, cm beam
Strips non-linearity dYv, cm Strip beam
Strips non-linearity Strip dZ, cm beam
Conclusion • Preliminary TT alignment has been made • Relative parameters was obtained • Cross-checks and tests are needed • Absolute measurements are needed (bricks and TT position) • Necessary to measure relative position of TT, DT and RPC
