Implementation of BeamCal in Mokka - PowerPoint PPT Presentation

About This Presentation
Title:

Implementation of BeamCal in Mokka

Description:

Create a database, using a MySQL script, with the relevant geometry ... Register the sensitive detector object using the RegsiterSensitiveDetector() method ... – PowerPoint PPT presentation

Number of Views:16
Avg rating:3.0/5.0
Slides: 17
Provided by: Alex363
Category:

less

Transcript and Presenter's Notes

Title: Implementation of BeamCal in Mokka


1
Implementation of BeamCal in Mokka
  • Alexandra Popescu, Aura Rosca
  • West University of Timisoara

FCAL Collaboration Meeting 6-7 May, Krakow, Poland
2
Overview
  • BeamCal functionality and structure
  • Detector construction
  • Sensitive detectors
  • Summary

3
BeamCal
  • Compact EM calorimeter with a sandwich structure
  • 30 layers of 1X0 3.5 mm absorber and 0.3 mm
    sensor
  • Angular coverage 5-45 mrad
  • Situated at 3450 mm from the IP
  • Purposes
  • Provide electron and photon identification down
    to polar angles of a few mrad
  • Protect the inner part of the detector by
    reducing backscattering from inner parts
  • Assisting beam diagnostics

4
Mokka implementation
  • Create a local copy of the central database
  • Construct the geometry of the detector
  • Define the sensitive detectors

5
Geometry construction
  • Drivers C code
  • Databases MySQL database
  • Sub-detectors a combination of drivers and
    databases

6
Drivers
  • A class which inherits from VSubDetectorDrivers
    class
  • class BeamCal00 public VSubDetectorDriver
  • The actual construction of the geometry is made
    by the ContextualConstruct invoked by the
    geometry manager
  • G4bool ContextualConstruct(const
    CGAGeometryEnvironment env, G4LogicalVolume
    worldLog)
  • To be available the driver has to be created
    using the INSTANTIATE macro available in
    CGADefs.h
  • include "CGADefs.h"
  • INSTANTIATE(BeamCal00)

7
Geometry data model
  • models03 database is composed of several
    tables
  • detector_concept
  • ingredients
  • model
  • model_parameters
  • parameters
  • scripts
  • setup
  • setup_parameters
  • sharing
  • sub_detector
  • tmp_databases

8
Geometry data model
model
name
description
detector_concept
model_status
sub_detector
id
name
db
driver
description
ingredients
id
model
sub_detector
build_order

sharing
driver
parameter
driver_default_value

9
Database
  • Create a database, using a MySQL script, with
    the relevant geometry parameters for the detector
  • CREATE DATABASE beamcalX01_14
  • USE beamcalX01_14
  • DROP TABLE IF EXISTS beamcal
  • CREATE TABLE beamcal(
  • Rinner double default NULL,
  • Router double default NULL,
  • sPhi double default NULL,
  • dPhi double default NULL,
  • nWafers double default NULL,
  • BPmaxR double default NULL
  • )
  • INSERT INTO beamcal (Rinner, Router, sPhi,
    dPhi, nWafers, BPmaxR) VALUES (20., 150., 200.,
    320., 8., 67.)

10
Geometry construction
Connect the driver and the database to form a
sub-detector
sub_detector
id
name
db
driver
description
  • name BeamCal
  • driver BeamCal00
  • database beamcalX01

Create a detector model that uses this
sub-detector
ingredients
id
model
sub_detector
build_order
model
name
description
detector_concept
model_status
  • model LDC01_05Sc
  • sub_detector BeamCal

Make the relevant geometry parameters known to
the driver
sharing
driver
parameter
driver_default_value
  • driver BeamCal00
  • parameter ILC_Main_Crossing_Angle (default
    value is 14 mrad)

11
BeamCal Geometry
Tungsten
Kapton
Gold
Pair monitor
Graphite (100 mm)
Air gap
Diamond
12
BeamCal Geometry
  • Segmentation
  • 17 ring (r)
  • 8 sectors (phi)
  • 140 cells/sector

8mm
Backward region
13
Sensitive detector
  • Hit class(es)
  • - CalHit (the generic hit class for calorimeters)
  • - TRKHit (implements a simple hit for the
    tracking devices)
  • Hit collection
  • Sensitive detector class
  • has to inherit from the abstract class
    VSensitiveDetector
  • Register the sensitive detector object using the
    RegsiterSensitiveDetector() method

14
Hits
Forward region
Backward region
15
Simulation studies
RM11.8 0.4 mm
16
Summary
  • Implemented in Mokka a realistic description of
    BeamCals geometry
  • Moliere Radius 11.8 mm (preliminary result)
  • LC TOOLS note in progress
Write a Comment
User Comments (0)
About PowerShow.com