Presentation is loading. Please wait.

Presentation is loading. Please wait.

RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1 JLAB12.

Published bySamson Daniel Modified over 9 years ago

Similar presentations

Presentation on theme: "RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1 JLAB12."— Presentation transcript:

1 RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1 JLAB12 coll. Meeting 17 March 10

2 RICH detector Substitute 2 LTCC sectors with a proximity focusing RICH detector 3 cm 80 cm GeV /c 12345678910  /K TOF LTCC HTCC  /p TOF LTCC HTCC K/p TOF LTCC  ratio K/  ~ 0.1-0.15 M. Contalbrigo2JLAB12 coll. Meeting 20Oct09

3 M. Contalbrigo3JLAB12 coll. Meeting 18 Nov 09 Pad size 2 cm Pad size 0 cm VISIBLE light Pad size 2 cm UV+VIS light UV light That’s the way ! Reduce pad size

4 M. Contalbrigo4 JLAB12 coll. Meeting 17 March 10 Aerogel Npe> 5 C 6 F 14 UV C 6 F 14 VISIBILE 38 3 8 3 8 3 8 3 8 3 8 3 8 Not so bad with < 1 cm pad

5 M. Contalbrigo5 JLAB12 coll. Meeting 17 March 10 Try to reduce active area

6 M. Contalbrigo6 JLAB12 coll. Meeting 17 March 10 TOF Direct measurement in a restricted area RICH FTOF Beam 5o5o 35 o 25 o 10 o

7 M. Contalbrigo7 JLAB12 coll. Meeting 17 March 10 3 8 3 8 3 8 3 8 3 8 3 8 3 8 Aerogel Npe> 5 C 6 F 14 UV C 6 F 14 VISIBILE

8 M. Contalbrigo8 JLAB12 coll. Meeting 17 March 10 3 8 3 8 3 8 3 8 3 8 3 8 3 8 C 6 F 14 UV C 6 F 14 VISIBILE

9 M. Contalbrigo9JLAB12 coll. Meeting 20Oct09 Less photons Larger angle separation

10 M. Contalbrigo10 JLAB12 coll. Meeting 17 March 10 3 8 3 8 3 8 3 8 3 8 3 8 3 8 Aerogel Npe> 5 C 6 F 14 UV C 6 F 14 VISIBILE HERMES like Aerogel

11 M. Contalbrigo11 JLAB12 coll. Meeting 17 March 10 3 8 3 8 3 8 3 8 3 8 3 8 3 8 C 6 F 14 UV C 6 F 14 VISIBILE

12 M. Contalbrigo12 JLAB12 coll. Meeting 17 March 10 3 8 3 8 3 8 3 8 3 8 3 8 3 8 Aerogel Npe> 5 C 6 F 14 UV C 6 F 14 VISIBILE

13 M. Contalbrigo13 2005 IEEE Nuclear Science Symposium Conference Record M. Tabata et al. JLAB12 coll. Meeting 17 March 10 Trasmission length is undergoing significantly improvements

14 M. Contalbrigo14 JLAB12 coll. Meeting 17 March 10

15 M. Contalbrigo15 JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8 Aerogel Npe> 3

16 M. Contalbrigo16 JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8 Aerogel Npe> 3

17 M. Contalbrigo17 Increasing n reduces angle difference Reducing thickness improves small pad response JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8 Aerogel Npe> 3 At large thickness uncertainty from gamma starting point

18 M. Contalbrigo18 JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8

19 M. Contalbrigo19 JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8

20 M. Contalbrigo20 JLAB12 coll. Meeting 17 March 10 Full ring catched if down to 50 cm from beam line Asymmetric illuminiation (due to 5 T solenoid) suggests better to use multi sectors

21 M. Contalbrigo21 Geometry costraints: minimum radius down to 50 cm from beam line left-right symmetry increase number of sectors JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8 Npe > 5 ! Weak sensitivity on: reduction of active area down to 17 o minimum N p.e.

22 M. Contalbrigo22 Going down to 50 cm & Left-right asymmetry increases efficiency JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8

23 M. Contalbrigo23 JLAB12 coll. Meeting 17 March 10 5 8 5 8 5 8

24 Executive summary RICH with Aerogel matches the required performances High cost due to the Large surface Expensive detectors for visible light Small pad size required Interference with TOF Material budget Crucial to minimize detector area material budget M. Contalbrigo24 JLAB12 coll. Meeting 17 March 10

25 M. Contalbrigo25 JLAB12 coll. Meeting 17 March 10 TOF Reflect on a side reflected does not reduce detector area hard to find a focusing geometry conflict with toroid field direct photons impinge at large angles

26 M. Contalbrigo26 JLAB12 coll. Meeting 17 March 10 TOF Reflect inside Reflect outside direct & reflected direct Low material budget Low material budget Direct: high momentum high performance Reflected: lower momentum relax performance requests

27 M. Contalbrigo27 JLAB12 coll. Meeting 17 March 10 TOF REFLECTED BY MIRROR DIRECT DETECTION RICH

28 M. Contalbrigo28 JLAB12 coll. Meeting 17 March 10 TOF RICH REFLECTED RICH DIRECT

29 M. Contalbrigo29 Beam 5o5o 35 o 25 o 20 o 10 o Photon detector Minimize interference with FTOF Decouple RICH optics Simplify reconstruction Doubled detector area Focusing mirrors to reduce detector area to ~ 2 m 2 /sec Relax performance requests for the external half (lower p) Increase pad size Reduce channel number Standard PMTs Similar to i.e. LHC-b !!! Focalizing mirror JLAB12 coll. Meeting 17 March 10

30 M. Contalbrigo30 Beam 5o5o 35 o 25 o 20 o 10 o Photon detector Minimize detector area (~1 m 2 /sector) interference with FTOF High density of hits check with track multiplicity Too high absorption in aerogel semi-reflective mirror Reduced collection efficiency (bi-alcali q.e. 25 %) ultra bi-alcali q.e. 45 % cost increases by 50 % Semi-reflective mirror New concept !!! JLAB12 coll. Meeting 17 March 10

31 Executive summary RICH with Aerogel matches the required performances Ongoing: Genaralize reconstruction algorithm to treat multiple track events mirrors Optimize mirror geometry minimize detector area minimize interference with TOF Working to minimize detector area material budget M. Contalbrigo31 JLAB12 coll. Meeting 17 March 10

32 Simulation based on most conservative n (Moyssdes) M. Contalbrigo32JLAB12 coll. Meeting 20Oct09

33 Quartz absorption length and refraction index from Khashan and Nassif, Optic communications 188 (2001) 129 M. Contalbrigo33JLAB12 coll. Meeting 20Oct09

34 M. Contalbrigo34 Beam 5o5o 35 o 25 o 20 o 10 o Photon detector Minimize interference with FTOF Decouple RICH optics Simplify reconstruction Doubled detector area Relax requests for the external half Increase pad size Reduce channel number Standard PMTs Similar to LHC-b !!! Focalizing mirror JLAB12 coll. Meeting 17 March 10

35 M. Contalbrigo35 Beam 5o5o 35 o 25 o 20 o 10 o Photon detector Minimize detector area (~1 m 2 /sector) interference with FTOF High density of hits check track multiplicity Too high absorption in aerogel semi-reflective mirror Reduced collection efficiency (bi-alcali q.e. 25 %) ultra bi-alcali q.e. 45 % cost increases by 50 % Semi-reflective mirror New concept !!! JLAB12 coll. Meeting 17 March 10

Download ppt "RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1 JLAB12."

Similar presentations

RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1RICH.

RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1RICH.
1 Geometry layout studies of the RICH detector in the CBM experiment Elena Belolaptikova Dr. Claudia Hoehne Moscow State Institute of Radioengineering,

1 Geometry layout studies of the RICH detector in the CBM experiment Elena Belolaptikova Dr. Claudia Hoehne Moscow State Institute of Radioengineering,
Peter Križan, Ljubljana Peter Križan University of Ljubljana and J. Stefan Institute The HERA-B RICH counter.

Peter Križan, Ljubljana Peter Križan University of Ljubljana and J. Stefan Institute The HERA-B RICH counter.
CLAS12 – RICH PARAMETERDESIGN VALUE Momentum range3-8 GeV/c  /K rejection factor Not less than 500  /p rejection factor Not less than 100 Angular coverage5.

CLAS12 – RICH PARAMETERDESIGN VALUE Momentum range3-8 GeV/c  /K rejection factor Not less than 500  /p rejection factor Not less than 100 Angular coverage5.
CKOV1 folded geometry 1. Optimization 2. Pion-muon separation 3. Instrumented area 4. Possible developments November 16, 2005 Gh. Grégoire Contents.

CKOV1 folded geometry 1. Optimization 2. Pion-muon separation 3. Instrumented area 4. Possible developments November 16, 2005 Gh. Grégoire Contents.
30 March 20041 Global Mice Particle Identification Steve Kahn 30 March 2004 Mice Collaboration Meeting.

30 March Global Mice Particle Identification Steve Kahn 30 March 2004 Mice Collaboration Meeting.
Review of PID simulation & reconstruction in G4MICE Yordan Karadzhov Sofia university “St. Kliment Ohridski” Content : 1 TOF 2 Cerenkov.

Review of PID simulation & reconstruction in G4MICE Yordan Karadzhov Sofia university “St. Kliment Ohridski” Content : 1 TOF 2 Cerenkov.
Progress and plans on PID simulation and reconstruction Yordan Karadzhov Sofia university St. Kliment Ohridski.

Progress and plans on PID simulation and reconstruction Yordan Karadzhov Sofia university St. Kliment Ohridski.
Patrizia Rossi for the RICH Collaboration Laboratori Nazionali di Frascati- INFN (Italy) Physics motivations Status of the project Future Plans CLAS12.

Patrizia Rossi for the RICH Collaboration Laboratori Nazionali di Frascati- INFN (Italy) Physics motivations Status of the project Future Plans CLAS12.
The HERMES Dual-Radiator Ring Imaging Cerenkov Detector N.Akopov et al., Nucl. Instrum. Meth. A479 (2002) 511 Shibata Lab 11R50047 Jennifer Newsham YSEP.

The HERMES Dual-Radiator Ring Imaging Cerenkov Detector N.Akopov et al., Nucl. Instrum. Meth. A479 (2002) 511 Shibata Lab 11R50047 Jennifer Newsham YSEP.
Peter Križan, Ljubljana March 17, 2006 Super B Workshop, Frascati Peter Križan University of Ljubljana and J. Stefan Institute Aerogel RICH and TOP: summary.

Peter Križan, Ljubljana March 17, 2006 Super B Workshop, Frascati Peter Križan University of Ljubljana and J. Stefan Institute Aerogel RICH and TOP: summary.
Position Sensitive SiPMs for Ring Imaging Cherenkov Counters C.Woody BNL January 17, 2012.

Position Sensitive SiPMs for Ring Imaging Cherenkov Counters C.Woody BNL January 17, 2012.
A Reconstruction Algorithm for a RICH detector for CLAS12 Ahmed El Alaoui RICH Workchop, Jefferson Lab, newport News, VA November 15-17 th 2011.

A Reconstruction Algorithm for a RICH detector for CLAS12 Ahmed El Alaoui RICH Workchop, Jefferson Lab, newport News, VA November th 2011.
1 Fast Timing via Cerenkov Radiation‏ Earle Wilson, Advisor: Hans Wenzel Fermilab CMS/ATLAS Fast Timing Simulation Meeting July 17, 2009 1.

1 Fast Timing via Cerenkov Radiation‏ Earle Wilson, Advisor: Hans Wenzel Fermilab CMS/ATLAS Fast Timing Simulation Meeting July 17,
The aerogel radiator: optical characterization and performances L.L. Pappalardo INFN - University of Ferrara 1 CLAS12 RICH Review – JLab - September 5-6.

The aerogel radiator: optical characterization and performances L.L. Pappalardo INFN - University of Ferrara 1 CLAS12 RICH Review – JLab - September 5-6.
February 28, 2002KOPIO Collaboration Meeting1 Status of Japan Group and Beam Catcher Contents : Status of Japan Group Progress in Beam Catcher Plan in.

February 28, 2002KOPIO Collaboration Meeting1 Status of Japan Group and Beam Catcher Contents : Status of Japan Group Progress in Beam Catcher Plan in.
EAS Reconstruction with Cerenkov photons Ching-Cheng Hsu, Jan.29 2003 Ching-Cheng Hsu National Taiwan Univ. Dept of physics Feb. 13 2003 Shower Simulation.

EAS Reconstruction with Cerenkov photons Ching-Cheng Hsu, Jan Ching-Cheng Hsu National Taiwan Univ. Dept of physics Feb Shower Simulation.
Scintillation hodoscope with SiPM readout for the CLAS detector S. Stepanyan (JLAB) IEEE conference, Dresden, October 21, 2008.

Scintillation hodoscope with SiPM readout for the CLAS detector S. Stepanyan (JLAB) IEEE conference, Dresden, October 21, 2008.
Contalbrigo Marco INFN Ferrara Rich Project Review, 5 th September 2013.

Contalbrigo Marco INFN Ferrara Rich Project Review, 5 th September 2013.
Status of Aerogel detector for high pT upgrade at PHENIX Budget from US-J project for next two years : (1) 400 liters of Aerogel (2) 600 photomultiplier.

Status of Aerogel detector for high pT upgrade at PHENIX Budget from US-J project for next two years : (1) 400 liters of Aerogel (2) 600 photomultiplier.

Similar presentations

Ads by Google