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Maria Grazia Pia, INFN Genova

Test & Analysis Project

Maria Grazia Pia, INFN Genova

on behalf of the T&A team

http://www.ge.infn.it/geant4/analysis/TandA

Geant4 Workshop, TRIUMF, September 2003

Statistical Testing Physics Testing

2N-L=13.1 – =20 - p=0.87

2N-S=23.2 – =15 - p=0.08

Maria Grazia Pia, INFN Genova

Physics Testing Project

Electromagnetic Physics

Maria Grazia Pia, INFN Genova

Process

Iterative and incremental, RUP-based

Vision– start with an initial set of basic electromagnetic tests– use GoF component of HEPstatistics– produce meaningful physics results– role in physics and regression testing

First cycle– geant4/tests/test50 – simple design (design iteration foreseen in near future)– first set of meaningful results

Maria Grazia Pia, INFN Genova

Main User Requirements

The test produces typical distributions of physical quantities of interest for testing a set of physical processes.The user shall be able to define electrons, positrons, antiprotons, pions, photons, ions.The experimental set-up (e.g.absorber size and material) can be changed by the user.The user shall be able to define position, direction, energy of primary particles. The user shall be able to define electromagnetic and hadronic processes. The user shall be able to choose different e.m. G4 Packages (Standard, LowE, Penelope)The user shall be able to switch on/off the individual physics processes.

URD in http://www.ge.infn.it/geant4/analysis/test

Maria Grazia Pia, INFN Genova Test DesignTest DesignTest DesignTest Design

Maria Grazia Pia, INFN Genova

Physics Tests

Hadronic physicsElectromagnetic physicsStandard, LowE, Penelope

Particle CSDA range Particle Stopping Power Transmission coefficient Backscattering coefficient Photon Attenuation coefficient Cross sections Particle range Bremsstrahlung energy spectrum Multiple scattering distributions Energy deposit in absorber Bragg peak (including hadronic interactions) etc.

?

Maria Grazia Pia, INFN Genova

Test results

Absorber MaterialsAbsorber Materials:

Be, Al, Si, Ge, Fe, Cs, Au, Pb, U

Photon attenuation coefficientPhoton attenuation coefficient

-ln ( gammaTransmittedFraction / (targetThickness * absorberDensity) )

Maria Grazia Pia, INFN Genova

X-ray Attenuation Coefficient - Al

G4 Standard

G4 LowE

NIST-XCOM

2N-L=13.1 – =20 - p=0.87

2N-S=23.2 – =15 - p=0.08

Maria Grazia Pia, INFN Genova

X-ray Attenuation Coefficient - Al

G4 LowE Penelope

NIST-XCOM

2N-P=15.9 – =19 p=0.66

Maria Grazia Pia, INFN Genova

X-ray Attenuation Coefficient - Ge

G4 Standard

G4 LowE

NIST-XCOM

2N-L=26.3 – =23 - p=0.29

2N-S=27.9 – =23 - p=0.22

Maria Grazia Pia, INFN Genova

X-ray Attenuation Coefficient - Ge

G4 LowE Penelope

NIST-XCOM

2N-P=10.1 – =21 - p=0.98

Maria Grazia Pia, INFN Genova

X-ray Attenuation Coefficient - U

G4 Standard

G4 LowE

NIST-XCOM

2N-L=6.6 – =20 - p=0.99

2N-S=14.7 – =20 - p=0.80

Maria Grazia Pia, INFN Genova

X-ray Attenuation Coefficient - U

G4 LowE Penelope

NIST-XCOM

2N-P=19.3 – =22 - p=0.63

Maria Grazia Pia, INFN Genova

Test results

Absorber MaterialsAbsorber Materials:

Be, Al, Si, Ge, Fe, Cs, Au, Pb, U

Photon cross sectionsPhoton cross sections

attenuation coefficients with only one process activated

Maria Grazia Pia, INFN Genova

Compton Scattering - Al

G4 Standard

G4 LowE

NIST-XCOM

2N-L= 12.9– =8 - p=0.12

2N-S=8.7 – =6 - p=0.19

Maria Grazia Pia, INFN Genova

Compton Scattering - Al

G4 LowE Penelope

NIST-XCOM

2N-P=2.5 – =6 - p=0.87

Maria Grazia Pia, INFN Genova

Compton Scattering - Cs

G4 Standard

G4 LowE

NIST-XCOM

2N-L=4.6 – =8 - p=0.80

2N-S=1.8 – =8 - p=0.99

Maria Grazia Pia, INFN Genova

Compton Scattering - Cs

G4 LowE Penelope

NIST-XCOM

2N-P=4.6 – =8 - p=0.80

Maria Grazia Pia, INFN Genova

Rayleigh Scattering - Al

G4 LowE

NIST-XCOM

2N-L=13.6 – =11 - p=0.26

Maria Grazia Pia, INFN Genova

Rayleigh Scattering - Al

G4 LowE Penelope

NIST-XCOM

2N-P=7.2 – =8 - p=0.52

Maria Grazia Pia, INFN Genova

Rayleigh Scattering - Cs

G4 LowE

NIST-XCOM

Maria Grazia Pia, INFN Genova

Raleygh Scattering - Cs

G4 LowE Penelope

NIST-XCOM

Maria Grazia Pia, INFN Genova

Photoelectric Effect - Fe

G4 Standard

G4 LowE

NIST-XCOM

Maria Grazia Pia, INFN Genova

Photoelectric effect - Fe

G4 LowE Penelope

NIST-XCOM

Maria Grazia Pia, INFN Genova

Photoelectric Absorption - Ge

G4 Standard

G4 LowE

NIST-XCOM

G4 LowE Penelope

NIST-XCOM

2 compatible Monte Carlo are not necessarily the

Truth!

Maria Grazia Pia, INFN Genova

Pair Production - Si

G4 Standard

G4 LowE

NIST-XCOM

Maria Grazia Pia, INFN Genova

Pair Production – Si

G4 LowE Penelope

NIST-XCOM

Maria Grazia Pia, INFN Genova

Test results

Absorber MaterialsAbsorber Materials:

Be, Al, Si, Ge, Fe, Cs, Au, Pb, U

CSDA range and Stopping Power for electrons

- no multiple scattering- no energy fluctuations

Maria Grazia Pia, INFN Genova

CSDA Range - Al

G4 Standard

G4 LowE

NIST-ESTAR

Maria Grazia Pia, INFN Genova

CSDA Range - Pb

G4 Standard

G4 LowE

NIST-ESTAR

Maria Grazia Pia, INFN Genova

Stopping Power - Al

G4 Standard

G4 LowE

NIST-ESTAR

Maria Grazia Pia, INFN Genova

Stopping Power - Pb

G4 Standard

G4 LowE

NIST-ESTAR

Maria Grazia Pia, INFN Genova

CSDA Range – Al –G4LowE

Geant4-05-02

NIST-ESTAR

Geant4-05-00

Regressiontesting

Maria Grazia Pia, INFN Genova

CSDA Range – Pb –G4Standard

Geant4-05-02

NIST-ESTAR

Geant4-05-00

Regressiontesting

Maria Grazia Pia, INFN Genova

Test results

Absorber MaterialsAbsorber Materials:

Be, Al, Si, Ge, Fe, Cs, Au, Pb, U

CSDA range and Stopping Power for protons - no multiple scattering- no energy fluctuations

Maria Grazia Pia, INFN Genova

CSDA Range Al

G4 Standard

G4 LowE

NIST-PSTAR

Maria Grazia Pia, INFN Genova

CSDA Range Al

G4 Standard

G4 LowE

NIST-PSTAR

Maria Grazia Pia, INFN Genova

CSDA Range Pb

G4 Standard

G4 LowE

NIST-PSTAR

Maria Grazia Pia, INFN Genova

Stopping Power Al

G4 Standard

G4 LowE Ziegler

NIST-PSTAR

Maria Grazia Pia, INFN Genova

Stopping Power Pb

G4 Standard

G4 LowE

NIST-PSTAR

Maria Grazia Pia, INFN Genova

Geant4-05-02

NIST-PSTAR

Geant4-05-00

CSDA Range – Al –G4LowE

Regressiontesting

Maria Grazia Pia, INFN Genova

Geant4-05-02

NIST-PSTAR

Geant4-05-00

CSDA Range – Al –G4LowE Ziegler

Regressiontesting

Maria Grazia Pia, INFN Genova

Geant4-05-02

NIST-PSTAR

Geant4-05-00

CSDA Range – Al –G4Standard

Regressiontesting

Maria Grazia Pia, INFN Genova

Geant4-05-02

NIST-PSTAR

Geant4-05-00

CSDA Range – Pb –G4LowE

Regressiontesting

Maria Grazia Pia, INFN Genova

Geant4-05-02

NIST-PSTAR

Geant4-05-00

CSDA Range – Pb –G4LowE Ziegler

Regressiontesting

Maria Grazia Pia, INFN Genova

Geant4-05-02

NIST-PSTAR

Geant4-05-00

CSDA Range – Pb –G4Standard

Regressiontesting

Maria Grazia Pia, INFN Genova

Test results

Transmission

Maria Grazia Pia, INFN Genova

Maria Grazia Pia, INFN Genova

Angular distribution of transmitted electrons

Maria Grazia Pia, INFN Genova

Angular distribution of transmitted protons

Maria Grazia Pia, INFN Genova

Test results

Absorber MaterialsAbsorber Materials:

Be, Al, Si, Ge, Fe, Mg, Ag, Au

Backscattering for electrons and positrons

Maria Grazia Pia, INFN Genova

Backscattering coefficient – E=100keV

G4 LowE

Lockwood et al. (1981)

Angle of incidence (withrespect to the normal to the sample surface) = 0°

Maria Grazia Pia, INFN Genova

Backscattering coefficient – E=1MeV

G4 LowE

Lockwood et al. (1981)

Angle of incidence (withrespect to the normal to the sample surface)=0°

Maria Grazia Pia, INFN Genova

Backscattering low energies - Au

Note: Note:

experimental data often exhibit large differences!

Maria Grazia Pia, INFN Genova

Backscattering low energies - Al

Maria Grazia Pia, INFN Genova

Backscattering low energies - Si

Maria Grazia Pia, INFN Genova

Backscattering coefficient – 30keV

G4 LowE

Coleman (1992)

Maria Grazia Pia, INFN Genova

Maria Grazia Pia, INFN Genova

Absorber MaterialAbsorber Material: water

Comparison with experimental data from INFN, LNS Catania

e.m. Physics

Geant4-05-00

Test results: Bragg peak, protons

Maria Grazia Pia, INFN Genova

Present situationPresent situationPresent situationPresent situation

PlansPlansPlansPlans

Status and plans

A set of basic e.m. tests and results is available– CSDA range, stopping power, transmission, backscattering, Bragg Peak, angular

distributions etc.

Regression tests– already done twice

Evaluation of the computing resources needed – see Sandra’s talk in parallel session

Integration in the Geant4 general system testingDesign iterationComplete test automationExtend test coverage

– e.m processes for ions, muons, atomic relaxation, add other e.m. physics distributions...– hadronic physics

Use more sophisticated algorithms of the GoF component

Maria Grazia Pia, INFN Genova

Conclusions

A lot of progress since last year’s workshop...– a lot of work, but also a lot of fun!

A group of bright, enthusiastic, hard-working young collaborators...

Ground for Geant4 Physics Book

Maria Grazia Pia, INFN Genova

More at IEEE-NSS,

Portland, 19-25 October 2003

B. Mascialino et al.,

A Toolkit for statistical data analysis

L. Pandola et al.,

Precision validation of Geant4 electromagnetic physics

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