Available Simulation datasets on the tier3

Latest MC files (Update: June 2023)

The productions are documented in this page concern the Electronic setup.

There are simulated data productions for physics analysis adopting specific setups with incomplete geometry:

• GSI data/MC studies (E.g. with a geometry consistent with the data taking setup at GSI of April 2019)
• Preparation of CNAO2020/CNAO2021 data takings.
• Simulation of GSI2021 campaign (July 2021) (campaign updated on June 2023)
• Simulation of HIT2022 campaign (September 2022)
• Simulation of CNAO2022 campaign (November-December 2022)

A production for physics studies purposes with the complete Electronic setup (12C; 200 Mev/u).

Full electronic detector simulation 12C_200_2023

The setup includes the whole detector with the magnetic map received in 2023. The primary (12C) energy is 200 Mev/u.

A campaign tag denominated 12C_200_2023 is available in the newgeom and Master branches of SHOE. Run number to be used in SHOE: 1

The available root files are "untriggered" simulations (all primary events are recorded), saved as SHOE root-files where also the region number is recorded.

The files are in tier3 in /gpfs_data/local/foot/Simulation/12C_200_2023:

1. 12C_C_100_1_shoereg.root (5 10^6 primaries)
2. 12C_C_200_2_shoereg.root (5 10^6 primaries)

Files will be made available on tier1 in the next future.

CNAO2022 MC studies

Files are available on tier1 at

/storage/gpfs_data/foot/shared/SimulatedData/CNAO2022_MC

A campaign tag denominated CNAO2022_MC has been made available in the newgeom and Master branches of SHOE. The setup includes SC, Target, VTX, MSD, TW and twelve 3x3 calorimeter modules. There are 2 run numbers to be used in SHOE: 200 and 201 related respectively to the November and December runs. The primary (12C) energy is 200 Mev/u. November run: detector test December run: to be used for physics analysis

The available files are those relative to 12C on C target, 5 mm thick with density 1.83 g/cm^3: 200.61 Mev/u. The available root files are "untriggered" simulations (all primary events are recorded) are saved as SHOE root-files where also the region number is recorded. The files are:

1. 12C_C_100_1_shoereg.root (5 10^6 primaries)
2. 12C_C_200_2_shoereg.root (5 10^6 primaries)

HIT2022 MC studies

Files are available on tier1 at

/storage/gpfs_data/foot/shared/SimulatedData/HIT2022_MC

A campaign tag denominated HIT2022_MC has been made available in the Newgeom and Master branches of SHOE. The setup includes SC, Target, MSD, TW and seven 3x3 calorimeter modules. There are 4 run numbers to be used in SHOE: 100, 140, 200 and 220 according to the primary (4He) energy.

The available files at present are only those relative to the case of 4He on C target, 5 mm thick with density 1.83 g/cm^3: 100.19, 140.14, 200.375 and 220.5 MeV /u. The avaible root files are "untriggered" simulations (all primary events are recorded) saves as SHOE root-files where also the region number is recorded. The files are:

1. 4He_C_100_n_shoereg.root (n=1,2; 5 10^6 primaries each file)
2. 4He_C_140_n_shoereg.root (n=1,2; 5 10^6 primaries each file)
3. 4He_C_200_n_shoereg.root (n=1,2; 5 10^6 primaries each file)
4. 4He_C_220_n_shoereg.root (n=1,2; 5 10^6 primaries each file)

In addition, there are also simulation of empty target runs:

1. 4He_C_100_empty.root (10^6 primaries)
2. 4He_C_140_empty.root (10^6 primaries)
3. 4He_C_200_empty.root (10^6 primaries)
4. 4He_C_220_empty.root (10^6 primaries)

CNAO2021 MC studies

Files are available on tier3 at

/gpfs_data/local/foot/Simulation/CNAO2021_MC

A campaign tag denominated CNAO2021_MC has been made available in the Newgeom and Master branches of SHOE. The setup includes SC, Target, TW and a 3x3 calorimeter module. An additional BGO block is present, but in this simulation is a passive element. There are 4 run numbers: 150 200, 300 and 400 according to the primary (12C) energy.

The available files at present are only those relative to the case of 12C on C target, 5 mm thick with density 1.83 g/cm^3: 150.71, 200.61, 301.44 and 398.84 MeV /u. The geometry is the the one reported for the 1st night of data taking. The avaible root files are "untriggered" simulations (all primary events are recorded) saves as SHOE root-files where also the region number is recorded. The files are:

1. 12C_C_150_Night1_shoereg.root (2 10^6 primaries)
2. 12C_C_200_Night1_shoereg.root (2 10^6 primaries)
3. 12C_C_300_Night1_shoereg.root (2 10^6 primaries)
4. 12C_C_400_Night1_1_shoereg.root (10^6 primaries)
5. 12C_C_400_Night1_2_shoereg.root (10^6 primaries)

GSI2021 MC studies (updated June 2023)

Files are available on tier1 at

/storage/gpfs_data/foot/shared/SimulatedData/GSI2021_MC

A campaign tag denominated GSi2021_MC has been made available in the Newgeom and Master branches of SHOE. There are 2 run numbers: 200 and 400 according to the energy. See the following presentation given at the Physics Meeting of 28 July 2021: https://agenda.infn.it/event/25081/contributions/127102/attachments/83900/110859/Simulation_Updates_20210728.pdf

The available files at present are those relative to run 200 and 400: 16O only for C target, 5 mm thick with density 1.83 g/cm^3) at 200 and 400 MeV /u. These are "untriggered" simulation (all primary events are recorded) saves as SHOE root-files where also the region number is recorded. There are two sets, each one made of 5 files:

1. 16O_C_200_n_shoereg.root (n=1,2,3,4,5 10^6 primaries each one)
2. 16O_C_400_n_shoereg.root (n=1,2,3,4,5 10^6 primaries each one)

Two more files are also available for background studies, where the solid C target has been replaced by air. These runs are recognized by the campaign manager as run 202 and 402, for the 200 Mev/u and 400 Mev/u energies respectively.

1. 16O_Air_200_shoereg.root (1.3 10^6 primaries)
2. 16O_Air_400_shoereg.root (1.3 10^6 primaries)

GSI2019 MC studies

The MC files that should be used is now kept on the Bologna Tier3 under the folder

/gpfs_data/local/foot/Simulation/GSI2019

A campaign tag denominated GSI has been made available in the NewGeom and Master branches of SHOE.

New simulation using the geometry generated with the GSI_MC campaign of shoe (newgeom branch)

1. foot_GSI_Trig_shoe.root (16O on C target 10^7 primaries 400 MeV /u)
2. foot_GSI_UnTrig_1_shoe.root (as above, 2.5 10^6 primaries, untriggered simulation)
3. foot_GSI_UnTrig_2_shoe.root (")

Old simulation files are 16O on C target, 5 mm with density 1.83 g/cm^3) at 200 and 400 MeV /u:

1. 16O_C_200_n.root (n=1,2; 10^7 primaries each one)
2. 16O_C_400_n.root (n=1,2; 10^7 primaries each one)

More details on these last files can be found in the following presentation given at the CNAO Meeting June 2019: https://agenda.infn.it/event/18616/contributions/95085/attachments/63969/77231/20190606_Sim_CollMeet.pdf

There are two additional MC files in

/gpfs_data/local/foot/Simulation/newgeom_v1.0/GSI/

They are without target and are "untriggered" (all primary events are recorded).

1. GSI_O_200_NoTg.root (16O at 200 MeV /u, 10^4 primaries)
2. GSI_O_400_NoTg.root (16O at 400 MeV /u, 10^4 primaries)

   ---

CNAO2020/2021 MC studies

Files are available on tier3 at

/gpfs_data/local/foot/Simulation/CNAO2020

A campaign tag denominated CNAO2020 has been made available in the NewGeom and Master branches of SHOE.

There are different type of files.

A) primitive EventStruct files

1. 12C_C_200.root (10^7 C primaries on C target, 284246 events on file)
2. 12C_C2H4_200_1.root and 12C_C2H4_200_2.root (both for 10^7 primaries on C2H4 target, 198215 and 197621 events on file respectively)
3. 12C_C_200em.root (10^7 C primaries on C target, 284376 events on file) with transport of e+/e- and photons with 500 keV cut
4. 12C_C2H4_200em_1.root and 12C_C2H4_200em _2.root (both for 10^7 primaries on C2H4 target, 197224 and 197248 events on file respectively) with transport of e+/e- and photons with 500 keV cut
5. 12C_C2H4_200notr_n.root (n=1,2,3,4,5) Untriggered simulation (2 10^6 primaries each one)

B) SHOE root files (corresponding to the above listed ones)

1. 12C_C_200_shoe.root
2. 12C_C2H4_200_1_shoe.root and 12C_C2H4_200_2_shoe.root
3. 12C_C_200em_shoe.root with transport of e+/e- and photons with 500 keV cut
4. 12C_C2H4_200em_1_shoe.root and 12C_C2H4_200em _2_shoe.root with transport of e+/e- and photons with 500 keV cut

C) SHOE root files with the addition of region crossing (corresponding to the above listed ones)

1. 12C_C_200_shoereg.root
2. 12C_C2H4_200_1_shoereg.root and 12C_C2H4_200_2_shoereg.root
3. 12C_C_200em_shoereg.root with transport of e+/e- and photons with 500 keV cut
4. 12C_C2H4_200em_1_shoereg.root and 12C_C2H4_200em _2_shoereg.root with transport of e+/e- and photons with 500 keV cut

Performance studies

The latest MC files that should be used is now kept on the Bologna Tier3 under the folder

/gpfs_data/local/foot/Simulation/newgeom_v1.0/

This production makes use of the full geometry including the calorimeter.

There are "untriggered" files (all events are written onto output) which are:

1. 12C_C_200notrig_n.root (n=1,2,3,4,5 12C at 200 MeV /u on C, 5 mm with density 1.83 g/cm^3 as that of GSI run, 2 10^6 primaries each file)

There are the normal "triggered" files (only events with at least an inelastic interaction in target are written)

1. 16O_C_200_1.root (16O at 200 MeV /u on C, 5 mm with density 1.83 g/cm^3, 10^7 primaries)
2. 16O_C2H4_200_n.root (n=1,2,3,4,5 12C at 200 MeV /u on C2H4, 5 mm with density 0.94 g/cm^3, 10^7 primaries each file)

A new production is available with e.m. transport activated havng 1 MeV cut for electron/positron and 0.5 MeV for photons. See details in https://agenda.infn.it/event/21777/contributions/109831/attachments/72741/91886/FLUKA_Sim_Update.pdf

1. 16O_C2H4_200em_n.root (n=1,2,3,4,5 12C at 200 MeV /u on C2H4, 5 mm with density 0.94 g/cm^3; 10^7 primaries each file)
2. 1H_C2H4_200em_1.root (protons at 200 MeV /u on C2H4, 5 mm with density 0.94 g/cm^3; 5 10^7 primaries)

There are additional files at higher energy with a modified geometry having TW+Calorimeter at 290 cm from the target.

Details are given in: https://agenda.infn.it/event/21776/contributions/109817/attachments/72264/91076/FLUKA_Sim_Update.pdf

1. 16O_C_700_1.root (16O at 700 MeV /u on C 5 mm with density 1.83 g/cm^3, 5 10^6 primaries)
2. 16O_C2H4_700_n.root (n=1,2,3,4,5 12C at 700 MeV /u on C2H4, 5 mm with density 0.94 g/cm^3, 5 10^6 primaries each file)

Also for the 700 MeV /u case there is a production with e.m. transport activated (https://agenda.infn.it/event/21777/contributions/109831/attachments/72741/91886/FLUKA_Sim_Update.pdf):

1. 16O_C2H4_700em_n.root (n=1,2,3,4,5 12C at 700 MeV /u on C2H4, 5 mm with density 0.94 g/cm^3; 5 10^6 primaries each file)
2. 1H_C2H4_700em_1.root (protons at 700 MeV /u on C2H4, 5 mm with density 0.94 g/cm^3; 10^7 primaries)

A special production of 4He interactions at 700 MeV /u is contained in /gpfs_data/local/foot/Simulation/newgeom_v1.0/HE_MC. This has been performed with a modified geometry to allow a longer level arm for TOF (180.3 cm from target) and displaced MSD.

Details are given in: https://agenda.infn.it/event/21775/contributions/109809/attachments/71546/89876/GB_4He700sim.pdf

1. 4He_C_700_n.root (n=1,2; 4He at 700 MeV /u on C 5 mm with density 1.83 g/cm^3, 5 10^6 primaries each one)

Older files, produced using a geometry without the calorimenter are in /gpfs_data/local/foot/Simulation/newgeom_v1.0/Old

The available files are:

1. 12C_C_200_1.root (12C at 200 MeV /u on C, 3 mm with density 1.83 g/cm^3, 10^7 primaries)
2. 16O_C_200_1.root (16O at 200 MeV /u on C, 3 mm with density 1.83 g/cm^3, 10^7 primaries)

More details on the files can be found in the following presentation: https://agenda.infn.it/event/20171/contributions/106229/attachments/69138/85804/SimulationStatus_Battistoni.pptx

Older MC productions available on the tier3 (Update: 6 September 2017)

V12.4:

Geometry: Plume IT with more realistic materials, new magnet design, Microstrip Silicon Detectors replacing the Drift Chamber, updated Calorimeter design (14 cm thick), high precision tracking in magnetic field

Mag. Field on, events with ≥1 inelastic interaction on target:

Storage Directory: /gpfs_data/local/foot/Simulation/V12.4

16O ions on 2 mm Polyethylene (dens = 0.94 g/cm^3) target, 200 MeV /u:
16O_C2H4_200_1.root (4.0e+6 primaries)
16O_C2H4_200_2.root (")
16O_C2H4_200_3.root (")
16O_C2H4_200_4.root (")
16O_C2H4_200_5.root (")

16O ions on 2 mm C target (dens = 2 g/cm^3), 200 MeV /u:
16O_C_200_1.root (4.0e+6 primaries)
16O_C_200_2.root (")
16O_C_200_3.root (")
16O_C_200_4.root (")
16O_C_200_5.root (")

12C ions on 2 mm Polyethylene (dens = 0.94 g/cm^3) target, 200 MeV /u:
12C_C2H4_200_1.root (4.0e+6 primaries)
12C_C2H4_200_2.root (")
12C_C2H4_200_3.root (")
12C_C2H4_200_4.root (")
12C_C2H4_200_5.root (")

12C ions on 2 mm C target (dens = 2 g/cm^3), 200 MeV /u:
12C_C_200_1.root (4.0e+6 primaries)
12C_C_200_2.root (")
12C_C_200_3.root (")
12C_C_200_4.root (")
12C_C_200_5.root (")

16O ion on 2 mm Polyethylene (dens = 0.94 g/cm^3) target, 350 MeV /u:
16O_C2H4_350_1.root (4.0e+6 primaries)
16O_C2H4_350_2.root (")
16O_C2H4_350_3.root (")
16O_C2H4_350_4.root (")
16O_C2H4_350_5.root (")

16O ion on 2 mm C (dens = 2 g/cm^3) target, 350 MeV /u:
16O_C_350_1.root (4.0e+6 primaries)
16O_C_350_2.root (")
16O_C_350_3.root (")
16O_C_350_4.root (")
16O_C_350_5.root (")

12C ion on 2 mm Polyethylene (dens = 0.94 g/cm^3) target, 350 MeV /u:
12C_C2H4_350_1.root (4.0e+6 primaries)
12C_C2H4_350_2.root (")
12C_C2H4_350_3.root (")
12C_C2H4_350_4.root (")
12C_C2H4_350_5.root (")

12C ion on 2 mm C (dens = 2 g/cm^3) target, 350 MeV /u:
12C_C_350_1.root (4.0e+6 primaries)
12C_C_350_2.root (")
12C_C_350_3.root (")
12C_C_350_4.root (")
12C_C_350_5.root (")

16O ions on 2 mm Polyethylene target (dens = 0.94 g/cm^3), 700 MeV /u:
16O_C2H4_700_1.root (4.0e+6 primaries)

16O ions on 2 mm C (dens = 2 g/cm^3) target, 700 MeV /u:
16O_C_700_1.root (4.0e+6 primaries)

12C ions on 2 mm Polyethylene (dens = 0.94 g/cm^3) target, 700 MeV /u:
12C_C2H4_700_1.root (4.0e+6 primaries)

12C ions on 2 mm C (dens = 2 g/cm^3) target, 700 MeV /u:
12C_C_700_1.root (4.0e+6 primaries)

____________________________________________________________________________

Geometry: Plume IT with more realistic materials, new magnet design, new Drift Chamber design, updated Calorimeter design, high precision tracking in magnetic field

16-O, Mag. Field on, events with ≥1 inelastic interaction on target:</n>*

Storage Directory: /gpfs_data/local/foot/Simulation/V10.2

2 mm Polyethylene target, 200 MeV /u projectiles:
* 16O_C2H4_200.root * (5.0e+6 primaries)

2 mm Polyethylene target, 400 MeV /u projectiles:
16O_C2H4_400.root (2.5e+6 primaries)

____________________________________________________________________________

Variant of Geometry: Calorimeter with 21 cm thick BGO crystals

2 mm Polyethylene target, 200 MeV /u projectiles:

16O_C2H4_200_Calo21.root (5.0e+6 primaries)

2 mm Polyethylene target, 400 MeV /u projectiles:

16O_C2H4_400_Calo21.root (2.5e+6 primaries)

____________________________________________________________________________

Previous Cases (Update 8 Mar 2017)

Geometry (better IT with more realistic materials, new magnet and Drift Chamber design)

a) 12-C, 200 A Mev, Mag. Field on, events with ≥1 inelastic interaction on target:

Storage Directory: /gpfs_data/local/foot/Simulation/NewGeo/MagOn_HT

Warning: approximate uniform dipolar B-field (By = 0.7 T)

Polyethylene target:

12C_C2H4_tgt_n.root (n=1,2,..., 5) , each one of the 5 files is relative to 1.e+6 primaries

Graphite target:

12C_C_tgt_n.root (n=1,2,..., 5) , each one of the 5 files is relative to 1.e+6 primaries

____________________________________________________________________________

b) 12-C, 200 A Mev, Mag. Field off, events with ≥1 inelastic interaction on target:

Storage Directory: /gpfs_data/local/foot/Simulation/NewGeo/MagOff_HT

Polyethylene target:

12C_C2H4_tgt_n.root (n=1,2,..., 5) , each one of the 5 files is relative to 1.e+6 primaries

Graphite target:

12C_C_tgt_n.root (n=1,2,..., 5) , each one of the 5 files is relative to 1.e+6 primaries

_____________________________________________________________________________
_____________________________________________________________________________

2) Standard production (5 Feb 2017)

Storage Directory: /gpfs_data/local/foot/Simulation

A) 12-C, 200 A Mev on C2-H4 target, events with ≥1 inelastic interaction on target, 1.e+6 primaries:

12C_C2H4_Mag_highThres.root with Magnetic Field on and High e.m. thresholds (i.e.: no deltas, etc.)
12C_C2H4_Mag_lowThres.root with Magnetic Field on and Low e.m. thresholds
12C_C2H4_noMag_highThres.root w/o Magnetic Field and High e.m. thresholds
12C_C2H4_noMag_lowThres.root w/o Magnetic Field and Low e.m. threshold

B) 16-O, 200 A Mev on C2-H4 target, events with ≥1 inelastic interaction on target, 1.e+6 primaries:

16O_C2H4_Mag_lowThres.root

C) 16-O, 200 A Mev on C2-H4 target, events w/o requiring inelastic interaction on target, 1.e+6 primaries:

5 files (very large), each one corresponding to 2.e+5 primaries. Magnetic Field on and Low e.m. thresholds:

16O_C2H4_Mag_lowThres_full1.root
16O_C2H4_Mag_lowThres_full2.root
16O_C2H4_Mag_lowThres_full3.root
16O_C2H4_Mag_lowThres_full4.root
16O_C2H4_Mag_lowThres_full5.root

3) Single Fragment production (5 Feb 2017)

Storage Directory: /gpfs_data/local/foot/Simulation/SingleFragment

Fragment of a given type emitted in a cone (175 mrad) from the target; E= 200 A MeV, 10k events.

A) With Magnetic Field on:

1H_200_cone_Mag.root
4He_200_cone_Mag.root
11B_200_cone_Mag.root
12C_200_cone_Mag.root
14N_200_cone_Mag.root
16O_200_cone_Mag.root
7Li_200_cone_Mag.root
9Be_200_cone_Mag.root

B) Without Magnetic Field:

1H_200_cone_noMag.root
4He_200_cone_noMag.root
11B_200_cone_noMag.root
12C_200_cone_noMag.root
14N_200_cone_noMag.root
16O_200_cone_noMag.root
7Li_200_cone_noMag.root
9Be_200_cone_noMag.root

4) Geometry with Trackers and magnets inside a vacuum chamber (5 Feb 2017)

A) 12-C, 200 A Mev on C2-H4 target, events with ≥1 inelastic interaction on target, 1.e+6 primaries:

12C_C2H4_vac.root All Trackers and magnets inside a vacuum chamber
12C_C2H4_vac_noIT.root No Tracker between magnets.

-- Giuseppe Battistoni - 2017-02-06 </verbatim>

• GSI2021_MC geometru: