Difference between revisions of "Solid Calorimeter"
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| − | = info = | + | This page has been moved to [https://solid.jlab.org/wiki/index.php/Calorimeter https://solid.jlab.org/wiki/index.php/Calorimeter] in the new [https://solid.jlab.org/wiki SoLID Wiki]. Please do not edit this page. |
| + | |||
| + | = collaboration info = | ||
== meeting == | == meeting == | ||
| Line 13: | Line 15: | ||
== file dir == | == file dir == | ||
| − | + | * dropbox folder | |
https://www.dropbox.com/sh/365le2o93vpn14e/4DLnKV_lN- | https://www.dropbox.com/sh/365le2o93vpn14e/4DLnKV_lN- | ||
| + | |||
| + | ask Zhiwen Zhao to share the dropbox folder with you | ||
| + | |||
| + | * jlab folder (outdated) | ||
upload files to /u/group/halla/www/hallaweb/html/12GeV/SoLID/download/ec | upload files to /u/group/halla/www/hallaweb/html/12GeV/SoLID/download/ec | ||
| Line 21: | Line 27: | ||
they show up at http://hallaweb.jlab.org/12GeV/SoLID/download/ec/ | they show up at http://hallaweb.jlab.org/12GeV/SoLID/download/ec/ | ||
| − | = | + | = [[solid calorimeter Simulation and Digitization | Simulation and Digitization ]] = |
| − | + | = Short Summary= | |
| − | + | == Dimension == | |
| − | + | ||
| − | * dimension | + | * dimension of limitation |
| − | + | ** Fluxreturn space radius 90 - 270cm | |
| − | + | ** crystat radius 0 - 144cm | |
| − | + | ||
| + | * dimension of support structure | ||
| + | ** FAEC (shared by PVDIS and SIDIS) radius 93 - 265cm | ||
| + | ** LAEC (only for SIDIS) radius 80 - 90 - 140cm | ||
| + | |||
| + | * dimension of module coverage | ||
| + | ** PVDIS FAEC radius 105 - 265cm | ||
| + | ** SIDIS FAEC radius 93 - 235cm | ||
| + | ** SIDIS LAEC radius 80 - 90 - 140cm | ||
* note | * note | ||
| − | ** 0. the inner radius of fluxreturn could be reduced to 85cm | + | ** 0. the inner radius of fluxreturn could be reduced to 85cm for |
| − | + | ||
** 2. the FAEC supporting structure is share between SIDIS and PVDIS experiments. While SIDIS needs from 96cm - 230cm and PVDIS needs 110cm - 262cm, the overall need is 96 - 262cm. | ** 2. the FAEC supporting structure is share between SIDIS and PVDIS experiments. While SIDIS needs from 96cm - 230cm and PVDIS needs 110cm - 262cm, the overall need is 96 - 262cm. | ||
| − | ** 3. SIDIS FAEC needs to move upsteam 85cm to become PVDIS FAEC, so the supporting structure needs to allow the movement. Note at the before and after locations, the endcap nose shape changes. It's a concern if the supporting structure is connected to the endcap nose. If the supporting is only connected to the endcap donut (15cm thick iron), not the endcap nose, it won't be a concern | + | ** 3. SIDIS FAEC needs to move upsteam 85cm to become PVDIS FAEC, so the supporting structure needs to allow the movement. Note at the before and after locations, the endcap nose shape changes. It's a concern if the supporting structure is connected to the endcap nose. If the supporting is only connected to the endcap donut (15cm thick iron), not the endcap nose, it won't be a concern then. |
** 4. LAEC needs to support on its own without putting force on cryostat and its supporting may need to share with GEM to stay within the limited space inside the solenoid. | ** 4. LAEC needs to support on its own without putting force on cryostat and its supporting may need to share with GEM to stay within the limited space inside the solenoid. | ||
| − | ** 5. The LAEC | + | ** 5. The LAEC 90-140cm is for the 100cm2 size module and LAEC 80-90cm is for smaller and shorter modules to fill the triangle area down to 14.85 degree line. |
| + | == number of module == | ||
| + | * assume 100cm2 module area, calculate number of modules by module coverage, we get | ||
| + | ** PVDIS FAEC 1860 | ||
| + | ** SIDIS total 1879 | ||
| + | *** SIDIS FAEC 1464, SIDIS LAEC 415 (about 360 regular module, 55 small module) | ||
| − | * | + | * ANL design hexagon layout for FAEC has module about 1750 [https://www.dropbox.com/sh/szhmyaslhocu3ax/u3Q29_Y331] |
| − | + | * So 1800 module in total is good guess | |
| − | = | + | == weight == |
| − | = [[solid calorimeter beam test | beam test ( | + | assume 44 long and length ratio Pb:Sc=1:3 shower, 100*44*(0.75*1.032+0.25*11.34)=16kg |
| + | |||
| + | assume 2 radiation length lead 1.12cm and 2cm Sci preshower, 100*1.12*11.34+100*2*1.032=1.5kg | ||
| + | |||
| + | assume everything else, like wrapping, rod etc is about 2.5kg | ||
| + | |||
| + | total module weight about 20kg each | ||
| + | |||
| + | = others = | ||
| + | |||
| + | == [[solid calorimeter readout | readout]] == | ||
| + | |||
| + | == [[solid calorimeter fiber and connector | fiber and connector]] == | ||
| + | |||
| + | == [[solid calorimeter test stand| test stand ]]== | ||
| + | |||
| + | == [[solid calorimeter beam test | beam test 2012 ]]== | ||
| + | |||
| + | == [[Solid EC To Do | todo list (2012/06) ]]== | ||
= talks and notes = | = talks and notes = | ||
| Line 76: | Line 111: | ||
[[Solid Largeangle Calorimeter | Largeangle Calorimeter]] | [[Solid Largeangle Calorimeter | Largeangle Calorimeter]] | ||
| − | |||
= Other ECAL = | = Other ECAL = | ||
* LHCb | * LHCb | ||
| − | ** [http://www.sciencedirect.com/science/article/pii/S016890020901907X NIM overview paper] | + | ** local files https://www.dropbox.com/sh/365le2o93vpn14e/g_v9IHvaLF/other_calorimeter/LHCb |
| − | ** [http://lhcb-calo.web.cern.ch/lhcb-calo/ Calo group] | + | ** some links |
| − | ** [http://lhcb-calo.web.cern.ch/lhcb-calo/html/TDR.htm TDR] | + | *** [http://www.sciencedirect.com/science/article/pii/S016890020901907X NIM overview paper] |
| − | ** [http://lhcb-calo.web.cern.ch/lhcb-calo/internal/TDR/notes.html TDR supporting notes] | + | *** [http://lhcb-calo.web.cern.ch/lhcb-calo/ Calo group] |
| + | *** [http://lhcb-calo.web.cern.ch/lhcb-calo/html/TDR.htm TDR] | ||
| + | *** [http://lhcb-calo.web.cern.ch/lhcb-calo/internal/TDR/notes.html TDR supporting notes] | ||
* KOPIO | * KOPIO | ||
** [http://www.sciencedirect.com/science/article/pii/S0168900207021717 KOPIO NIM paper] | ** [http://www.sciencedirect.com/science/article/pii/S0168900207021717 KOPIO NIM paper] | ||
Latest revision as of 15:39, 7 December 2020
This page has been moved to https://solid.jlab.org/wiki/index.php/Calorimeter in the new SoLID Wiki. Please do not edit this page.
Contents
collaboration info
meeting
Agendas and Minutes of weekly meeting meeting info in the Minutes page also
Email list
"solid_ec at jlab.org" registration and archive
the administrator is Zhiwen Zhao (zwzhao at jlab.org)
file dir
- dropbox folder
https://www.dropbox.com/sh/365le2o93vpn14e/4DLnKV_lN-
ask Zhiwen Zhao to share the dropbox folder with you
- jlab folder (outdated)
upload files to /u/group/halla/www/hallaweb/html/12GeV/SoLID/download/ec
they show up at http://hallaweb.jlab.org/12GeV/SoLID/download/ec/
Simulation and Digitization
Short Summary
Dimension
- dimension of limitation
- Fluxreturn space radius 90 - 270cm
- crystat radius 0 - 144cm
- dimension of support structure
- FAEC (shared by PVDIS and SIDIS) radius 93 - 265cm
- LAEC (only for SIDIS) radius 80 - 90 - 140cm
- dimension of module coverage
- PVDIS FAEC radius 105 - 265cm
- SIDIS FAEC radius 93 - 235cm
- SIDIS LAEC radius 80 - 90 - 140cm
- note
- 0. the inner radius of fluxreturn could be reduced to 85cm for
- 2. the FAEC supporting structure is share between SIDIS and PVDIS experiments. While SIDIS needs from 96cm - 230cm and PVDIS needs 110cm - 262cm, the overall need is 96 - 262cm.
- 3. SIDIS FAEC needs to move upsteam 85cm to become PVDIS FAEC, so the supporting structure needs to allow the movement. Note at the before and after locations, the endcap nose shape changes. It's a concern if the supporting structure is connected to the endcap nose. If the supporting is only connected to the endcap donut (15cm thick iron), not the endcap nose, it won't be a concern then.
- 4. LAEC needs to support on its own without putting force on cryostat and its supporting may need to share with GEM to stay within the limited space inside the solenoid.
- 5. The LAEC 90-140cm is for the 100cm2 size module and LAEC 80-90cm is for smaller and shorter modules to fill the triangle area down to 14.85 degree line.
number of module
- assume 100cm2 module area, calculate number of modules by module coverage, we get
- PVDIS FAEC 1860
- SIDIS total 1879
- SIDIS FAEC 1464, SIDIS LAEC 415 (about 360 regular module, 55 small module)
- ANL design hexagon layout for FAEC has module about 1750 [1]
- So 1800 module in total is good guess
weight
assume 44 long and length ratio Pb:Sc=1:3 shower, 100*44*(0.75*1.032+0.25*11.34)=16kg
assume 2 radiation length lead 1.12cm and 2cm Sci preshower, 100*1.12*11.34+100*2*1.032=1.5kg
assume everything else, like wrapping, rod etc is about 2.5kg
total module weight about 20kg each
others
readout
fiber and connector
test stand
beam test 2012
todo list (2012/06)
talks and notes
2012_01_06 Jlab Physics Division Brain Storm Session by Xiaochao Zheng pdf
2011_12_09 meet with W&M and talk about general and beam test plan
2011_11_09 EC longitudinal segmentation option at weekly meeting
2011_10 collaboration meeting by Mehdi Meziane
2011_09_30 Jlab Physics Division Brain Storm Session by Jin Huang
2011_09_21 Update by Mehdi Meziane
2011_06 collaboration meeting by Zhiwen Zhao for forwardangle Calor
2011_06 collaboration meeting by Jin Huang for largeangle Calor
2011_03 collaboration meeting by Zhiwen Zhao for forwardangle Calor
2011_03 collaboration meeting by Jin Huang for largeangle Calor
previous pages (some info outdated)
Other ECAL
- LHCb
- KOPIO
