Difference between revisions of "Magnetic field study"
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| − | [https://eic.jlab.org/core/index.php/Main_Page Go back to | + | [https://eic.jlab.org/core/index.php/Main_Page Go back to CORE Main Page] |
<font size="5px">Welcome to the home of ECCE Diffractive and Tagging Physics Working Sub Group</font> | <font size="5px">Welcome to the home of ECCE Diffractive and Tagging Physics Working Sub Group</font> | ||
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=Scope= | =Scope= | ||
| + | Information from Paul Brinza | ||
| + | * Athena is 3 meters ID and 3 Tesla and has the highest stored energy. | ||
| + | * Ecce is 1.5 Tesla and is also 3 Meters ID. | ||
| + | * Core is 3 Tesla but only 1 Meter ID. | ||
| + | The stored energy scales like B^2*Vol. | ||
| − | |||
| + | Additional information from Paul and Pawel: | ||
| + | * Radial material in the current 3 T CORE solenoid design. | ||
| + | * Inner vacuum vessel ~ 4 cm Al, density 2.5 | ||
| + | * Inner radiation shield few mm ~ 2 mm Cu, density 9 | ||
| + | * Coil 6 cm - a 5:1 mix of Cu and NbTi (i.e., with Nb =Ti, a 10:1:1 mix of Cu, Nb, and Ti) | ||
| + | * Coil support cylinder ~ 7 cm Al, density 2.5 | ||
| + | * Outer radiation shield ~ 2 mm Cu, density 9 | ||
| + | * Outer vacuum vessel Al ~ 10 cm Al, density 2.5 | ||
| + | |||
| + | The 5 cm of Cu in the coil is not negligible, but also not a dominant contribution. | ||
| + | |||
| + | Question: an EIC KLM would work just as well with Cu as with Al? Belle's configuration and KLM performance will give a good indication | ||
| + | |||
| + | =Software and Resources= | ||
| + | |||
| + | |||
| + | ==ATHENA DD4HEP and Juggler Resources== | ||
| + | * Tutorial: https://eic.phy.anl.gov/tutorials/eic_tutorial/ | ||
| + | * gitlab: https://eicweb.phy.anl.gov/EIC | ||
| + | |||
| + | ==Full Simulation (Fun4all) Resources== | ||
| + | * [https://ecce-eic.github.io/ ECCE@EIC Software Documentation] | ||
| + | * [https://ecce-eic.github.io/tutorials_day1.html Day-1 checklist] | ||
| + | * [https://indico.bnl.gov/event/11112/contributions/47260/attachments/33415/53698/Kauder_eicsmear_generators_ECCE_Apr2021.pdf K. Kauder's talk at the ECCE software workshop] | ||
| + | * [https://indico.bnl.gov/category/346/ ECCE Physics Work Group Indico Agenda] | ||
| + | * [https://indico.bnl.gov/event/11719/ 2nd Software and Simulation Workshop] | ||
| + | **[https://indico.bnl.gov/event/11719/contributions/49425/attachments/34696/67114/ECCE_Simulation_Tutorial_Diff_Tagg.pdf An Analysis Module Example for Diffractive and Tagging Processes for IP6] [https://indico.bnl.gov/event/11719 Recording] | ||
| + | **[https://indico.bnl.gov/event/14878/contributions/60251/attachments/39901/66529/CORE_Simulation_Tutorial_Diff_Tagg.pdf An Analysis Module Example for Diffractive and Tagging Processes for IP8] [https://indico.bnl.gov/event/14878 Recording] | ||
| + | **[https://indico.bnl.gov/event/15033/ ATHENA software tutorial how to get started] [https://indico.bnl.gov/event/14878 Recording] | ||
| + | * https://wiki.bnl.gov/eicug/index.php/File:EIC_ZDC_section.pdf Instruction for the Fun4all data format: [https://wiki.bnl.gov/eicug/index.php/File:Fun4all_format_help.pdf June/07/2021] | ||
| + | * Instruction for the Fun4all Job submission on JLab ifarm: [https://wiki.bnl.gov/eicug/index.php/File:JLab_ifarm_instruction.pdf June/07/2021] | ||
| + | * Instruction for re-analyzing DST trees on the ifarm: [https://wiki.bnl.gov/eicug/index.php/File:Re-analyzing_DST.pdf August/15/2021 (Obsolete)] [https://wiki.bnl.gov/eicug/index.php/File:Fun4all_analyzing_on_ifarm.pdf Feb/01/2022 (use this)] | ||
| + | * Instruction for accessing BNL generated simulation file via eicS3: [https://wiki.bnl.gov/eicug/index.php/File:BNL_S3_instruction.pdf March/12/2022] | ||
| + | * Instruction for accessing JLab generated simulation file via xrootd: [https://wiki.bnl.gov/eicug/index.php/File:JLAB_xrootd_instruction.pdf March/12/2022] | ||
| + | * Athena Software Tutorial demo: [https://indico.bnl.gov/event/15033/ Recording] | ||
=Useful Resources= | =Useful Resources= | ||
Latest revision as of 16:10, 28 April 2022
Welcome to the home of ECCE Diffractive and Tagging Physics Working Sub Group
Scope
Information from Paul Brinza
- Athena is 3 meters ID and 3 Tesla and has the highest stored energy.
- Ecce is 1.5 Tesla and is also 3 Meters ID.
- Core is 3 Tesla but only 1 Meter ID.
The stored energy scales like B^2*Vol.
Additional information from Paul and Pawel:
- Radial material in the current 3 T CORE solenoid design.
- Inner vacuum vessel ~ 4 cm Al, density 2.5
- Inner radiation shield few mm ~ 2 mm Cu, density 9
- Coil 6 cm - a 5:1 mix of Cu and NbTi (i.e., with Nb =Ti, a 10:1:1 mix of Cu, Nb, and Ti)
- Coil support cylinder ~ 7 cm Al, density 2.5
- Outer radiation shield ~ 2 mm Cu, density 9
- Outer vacuum vessel Al ~ 10 cm Al, density 2.5
The 5 cm of Cu in the coil is not negligible, but also not a dominant contribution.
Question: an EIC KLM would work just as well with Cu as with Al? Belle's configuration and KLM performance will give a good indication
Software and Resources
ATHENA DD4HEP and Juggler Resources
Full Simulation (Fun4all) Resources
- ECCE@EIC Software Documentation
- Day-1 checklist
- K. Kauder's talk at the ECCE software workshop
- ECCE Physics Work Group Indico Agenda
- 2nd Software and Simulation Workshop
- https://wiki.bnl.gov/eicug/index.php/File:EIC_ZDC_section.pdf Instruction for the Fun4all data format: June/07/2021
- Instruction for the Fun4all Job submission on JLab ifarm: June/07/2021
- Instruction for re-analyzing DST trees on the ifarm: August/15/2021 (Obsolete) Feb/01/2022 (use this)
- Instruction for accessing BNL generated simulation file via eicS3: March/12/2022
- Instruction for accessing JLab generated simulation file via xrootd: March/12/2022
- Athena Software Tutorial demo: Recording
