Update on the telescope for DESY testbeam October
Update on the telescope for DESY testbeam October 2019 Presented by Guido Haefeli, 29. 5. 2019
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Station layout 4
Main properties • • • 6 x-y double planes 130 mm x 130 mm, 7 fibre layers per mat Readout with 512 channels per layer, total of 6 K channels 2 positions for absorbers, 75 mm, 10 X 0 of lead Distance between stations 40 mm and 115 mm Distance between x-y layers 9 mm Distance to the first layer <20 mm Trigger downstream of the tracker Light injection system for time calibration Expected efficiency > 99% Expected single plane time resolution <500 ps Acquisition trigger rate 50 k. Hz for single track and >1 k. Hz for shower readout 5
Laser time calibration • • • We measure the time difference between two channels in a cluster (CTR) Injection of a single channel moving over all 512 channels allows to calibrate the time offset Allows to calibrate to less than 100 ps, long time stable Verification of calibration with light injection system VCSEL 6
VCSEL injection system • • • Injection is less fast and less homogenous It is necessary to control the time alignment at every run Electronics board is in production 7
Injection system fibre light output 8
With fibre module and laser injection 9
Status • Electronics is available to equip the 12 layers • Time calibration procedure is verified and allows to check time alignment for every run in test beam • Production of the 6 stations is ongoing, the procedure is verified and within 3 weeks production is completed • Development of a alignment and tracking software is ongoing 10
- Slides: 10