ALFA GeoModel implementation and simulation status ATHENA, what is our job? ALFA GeoModel...

ALFA GeoModel implementation and simulation status ATHENA, what is our job? ALFA GeoModel implementation MC simulation – first steps Problems Summary Vít Vorobel ALFA meeting CERN 24.5.2006

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Vít VorobelALFA meeting CERN ALFA Si-1 PS Si-2 Si-3 GeoModel - Geometry & materials Si-1,2,3 – Si,  = 2.3g/cm 3, 0.3x100x100mm PS – Polystyrene (C 8 H 8 ) n,  =1.05g/cm 3,8x16x12mm Air – 20%O 2, 80%N 2,  = 1.29mg/cm 3 ALFA detector Ceramics – Al 2 O 3,  =3.7g/cm 3, 0.17x16x12mm Plastic layers – material as PS, 0.5x16x12mm, logically divided to –Sensitive cores of fibers □0.48 mm –Insensitive everything else simulating cladding, glue, and spacers –Fibers positioned regulary with x and pinch from metrology data, slope=45° –Fibers are not cutted on the edge.

Transcript of ALFA GeoModel implementation and simulation status ATHENA, what is our job? ALFA GeoModel...

ALFA GeoModel implementation and simulation status

ATHENA, what is our job? ALFA GeoModel implementation MC simulation – first steps Problems Summary

Vít Vorobel ALFA meeting CERN 24.5.2006

Page 2: ALFA GeoModel implementation and simulation status ATHENA, what is our job? ALFA GeoModel implementation MC simulation – first steps Problems

Vít Vorobel ALFA meeting CERN 24.5.2006 2

ATHENA network DATA

Materials Geometry (GeoModel)

o Tile Calo SCTo ALFA we have to provide to ATLASo …

Settings … …

TOOLS Simulation (GEANT) we may use for ALFA Analysis (Root)

Page 3: ALFA GeoModel implementation and simulation status ATHENA, what is our job? ALFA GeoModel implementation MC simulation – first steps Problems

Vít Vorobel ALFA meeting CERN 24.5.2006 3

23.17135160

173270

ALFA

Si-1

Si-2Si-3

GeoModel - Geometry & materials• Si-1,2,3 – Si, = 2.3g/cm3, 0.3x100x100mm• PS – Polystyrene (C8H8)n , =1.05g/cm3 ,8x16x12mm• Air – 20%O2, 80%N2, = 1.29mg/cm3

ALFA detector • Ceramics – Al2O3 , =3.7g/cm3 , 0.17x16x12mm• Plastic layers – material as PS, 0.5x16x12mm, logically

divided to– Sensitive cores of fibers □0.48 mm– Insensitive everything else simulating cladding, glue,

and spacers– Fibers positioned regulary with x and pinch from

metrology data, slope=45°– Fibers are not cutted on the edge.

Page 4: ALFA GeoModel implementation and simulation status ATHENA, what is our job? ALFA GeoModel implementation MC simulation – first steps Problems

Vít Vorobel ALFA meeting CERN 24.5.2006 4

MC simulation A testing volume built and a particle shouted from IP to the volume Deposited energy evaluated end histogrammed

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Vít Vorobel ALFA meeting CERN 24.5.2006 5

Problems

All components of the ATHENA framework are under development New versions of the components are released independently – are not compatible E.g. version…&version… histograms are not built V….&v…. histohrams are built but not visible V….&v…. segmentation fault . . Users (we) never know if the user code is wrong or the used components are not

compatible

Page 6: ALFA GeoModel implementation and simulation status ATHENA, what is our job? ALFA GeoModel implementation MC simulation – first steps Problems

Conclusion Achievements

GeoModel – The present code includes The ALFA and Overlap detectors with ideal fiber staggering The detectors are “cloned” to all stations

MC Simulation – we are able to shout a particle into a testing volume To read and histogram the energy deposition in the testing volume

Tasks to do Add Roman Pots to GeoModel Learn how to read a real geometry from the database Learn how to modify idealreal geometry in GeoModel Ask an administrator to add our code to ATHENA framework Extend MC simulation from a testing volume to ALFA detector