MEG Experiment Upgrade proposes a major improvement [1] of the sensitivity in the μ →eγ decay [2]. In particular the positron tracking will be performed by means of an upgrade of MEG Drift Chamber that consists in a cylindrical wire drift chamber, with the axis parallel to the muon beam, inspired to the one used in the KLOE experiment [3]. The new tracker, currently under costruction, can achieve a resolution of 100 μm in the measurement of the drift distance to the anode wires. Improving the resolution imposes a high speed and high performance Front End Electronics for signal acquisition.
Chiarello G., Chiri C., Corvaglia A., Grancagnolo F., Panareo M., Pepino A., et al. (2015). A high performance front end for MEG II tracker. In International Workshop on Advances in Sensors and Interface (IWASI) (pp. 55-57). Institute of Electrical and Electronics Engineers Inc. [10.1109/IWASI.2015.7184937].
A high performance front end for MEG II tracker
Chiarello G.Co-primo
;
2015-01-01
Abstract
MEG Experiment Upgrade proposes a major improvement [1] of the sensitivity in the μ →eγ decay [2]. In particular the positron tracking will be performed by means of an upgrade of MEG Drift Chamber that consists in a cylindrical wire drift chamber, with the axis parallel to the muon beam, inspired to the one used in the KLOE experiment [3]. The new tracker, currently under costruction, can achieve a resolution of 100 μm in the measurement of the drift distance to the anode wires. Improving the resolution imposes a high speed and high performance Front End Electronics for signal acquisition.
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