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Readout principle Time Drift direction E drift Continuously sensitive Self-triggering Equiv. input charge due to noise:

Published byMeryl Baker Modified over 9 years ago

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Presentation on theme: "Readout principle Time Drift direction E drift Continuously sensitive Self-triggering Equiv. input charge due to noise:"— Presentation transcript:

1 Readout principle Time Drift direction E drift Continuously sensitive Self-triggering Equiv. input charge due to noise:

2 Cooling system Cooling panels Commercial Insulation LN 2 pumps Two LN 2 circulation pumps, max speed 24 m 3 /hr, max head 5 bar Drawing pannel

3 Internal detector view Wire Chamber Side A Wire Chamber Side B Drift distance 2 x 1.5 m Cathode

4 Run 975, Event 118 Collection Right 92 cm 53 cm Muon decay

5 Run 969, Event 18 Collection Right 73 cm 42 cm 43 cm V 0 candidate 50 cm

6 Run 975, Event 15 Collection Left 395 cm 174 cm Multiple Shower 14 m 153 cm Run 975, Event 143 Collection Left

7 Multiple muons + multiple showers Run 975, Event 146 Collection Right 920 cm 185 cm 16,4 m Run 975, Event 133 Collection Right 174 cm

8 Run 975, Event 157 Collection Right 706 cm 170 cm Big Shower Run 961, Event 16 Collection Right 176 cm 434 cm

9 158 MeV 752 MeV  = 141 o M inv = 650 MeV Run 975, Event 151 M inv =140 MeV Collection view Pi zero candidate (preliminary)  = 25 o 140 MeV Reconstruction of  -showers (error evalulation in progress)

10 Detector’s performance (cont.) Collection view Run 939 Event 95 Induction 2 view A B C D K+ µ+µ+ e+ A A B B C C AB BC K+ µ+ Run 939 Event 46 Particle identification by characteristic decay (µ +,µ -,K +,K -, K o ) µ+µ+ e+ µ+µ+

11 Induction 2 view Collection view Box dimensions: 42 x 14 x14 cm E e reconstructed = 45 MeV Run 939 Event 95

12 Electron from  decay measurement

13 GOK (God Only Knows…) …… and may be some theorist ≈15 cm ≈25 cm

14 Shock Absorbers Aux. UnitsT600 T600 Installation in LNGS

15 Aux. UnitsT600 T600 Installation in LNGS

16 The T3000 Detector

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