LHCb VELO Testbeam at Fermilab Jianchun Wang Syracuse University.
G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison ...
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Transcript of G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison ...
![Page 1: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/1.jpg)
G4 Validation meeting (5/11/2003)
S.VIRETLPSC Grenoble
Photon testbeam
Data/G4 comparison
Œ Motivation
Testbeam setup & simulation
Ž Analysis & results
Conclusion
![Page 2: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/2.jpg)
1
Motivation
G4 Validation meeting (5/11/2003)
Œ
Moti
vati
on
S.VIRET
Photon identification is crucial for physics analysis in ATLAS
Compare data (taken on Ecal barrel in August 2000) to a G4 simulation taking into account those
effects
Numerous complex effects are involved (cross-talk,
electronic noise,…)
Is G4 able to reproduce correctly photon in the Ecal?
![Page 3: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/3.jpg)
2
The Photon TestBeam experimental setup1. Technical description
‹ 178 GeV electron beamŒ e- giving a photon e- only deflected (Ee = 178 GeV)Ž Photons
M0 m
od
ule
Target(Pb, Al)
Magnetic field
(4 Tm)
25 m
Œ
Ž‹
d
d = 3060
Ee cm
Beam pointing to = 28, = 10
position
G4 Validation meeting (5/11/2003)
T
estb
eam
setu
p &
sim
ula
tion
S.VIRET
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3
‹ 178 GeV electron beamŒ e- giving a photon e- only deflected (Ee = 178 GeV)Ž Photons
G4 Validation meeting (5/11/2003)
M0 m
od
ule
BC1
Target(Pb, Al)
BC3
Converter
Magnetic field
(4 Tm)
Œ
Ž‹
S1
S2
S3
T
estb
eam
setu
p &
sim
ula
tion
The Photon TestBeam experimental setup2. Triggering & event filtering
Trigger S1 S2
Multiphoton rejection Converter + S3
Beam profile BC’s
S.VIRET
![Page 5: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/5.jpg)
4G4 Validation meeting (5/11/2003)
Already done (see G. Parrour’s
talks)
M0 m
od
ule
Target(Pb, Al)
Converter
Magnetic field
(4 Tm)
S3
Added to GP’s code
T
estb
eam
setu
p &
sim
ula
tion
The Photon TestBeam experimental setup3. G4 Modelisation
•Simulation developped with G4 release 4.4.1•BC’s & scintillators (except S3) were not added (negligible thickness) and G.Graziani modifications were not applied.•Material present (accidentaly) in the beam in 2000 is added
S.VIRET
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5
Calibration 1. Crosstalk
T
estb
eam
setu
p &
sim
ula
tion
G4 Validation meeting (5/11/2003)S.VIRET
Significant effect on precise parameters (Width on 3 strips,...)
Strips units
En
erg
y d
ep
osit 4.1%4.1%
n-1 n n+1
Only x-talk from closest neighbours in the strips is
added
DataG4
DataG4
Without xtalk
With xtalk
W3strips
W3strips
CERN-EP-2002-087
![Page 7: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/7.jpg)
6
T
estb
eam
setu
p &
sim
ula
tion
Calibration 2. e-noise
G4 Validation meeting (5/11/2003)S.VIRET
Significant effect on /0 rejection parameters (Energy of
2nd maximum,...)
Strips units
En
erg
y d
ep
osit
E1max
E2max
E2max(GeV)
E2max(GeV)
DataG4
DataG4
Without enoise
With enoise
e-noise softens the difference between E2max
the valley, particularly at low energy
Strips units
En
erg
y d
ep
osit E1
max
E2max
Without enoise
With enoise
![Page 8: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/8.jpg)
Ž A
naly
sis
&
resu
lts
Analysis1.Cuts applied
G4 Validation meeting (5/11/2003)S.VIRET
Photon candidate if :
5 GeV < Eph < 55 GeV
0.93 Ecalo < Eph + Eel < 0.96Ecalo
226. < strips(Photon) < 230.
S3 signal pedestal
Too much background under 5 GeV
Multiphoton
Electron position dispersion
Multiphoton
7
![Page 9: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/9.jpg)
8
Results1. Energy in the strips & leakage
proportion
G4 Validation meeting (5/11/2003)
Ž A
naly
sis
&
resu
lts
S.VIRET
Problem with upstream material modelisation and calibration with xtalk in the strips (see G. Graziani ’s 01/10/03 talk)
Fraction of energy in the strips
E1etot = Ephoton(strips)
Ephoton
E1etot
Leakage fraction in the strips
E1ecore
=
Ephoton(7strips)- Ephoton(3strips)
Ephoton (3strips)
E1ecore
DataG4
DataG4
![Page 10: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/10.jpg)
9G4 Validation meeting (5/11/2003)
Strips units
En
erg
y d
ep
osit
E1max
E2max
Emin
Ž A
naly
sis
&
resu
lts
S.VIRET
DataG4
DataG4
Ed2max = E2
max - Emin
E2max(GeV)
Ed2max(GeV)
Results2. /0 rejection parameters
Good agreement G4/Data
![Page 11: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/11.jpg)
10
19.46 GeV
13.03 GeV
25.36 GeV
Compare photon widths at
different <Eph>
Selection on electron position in
the strips
Ž A
naly
sis
&
resu
lts
S.VIRET G4 Validation meeting (5/11/2003)
Analysis2. Using correlation between
electron deviation & photon energy
![Page 12: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/12.jpg)
G4 Validation meeting (5/11/2003)
Ž A
naly
sis
&
resu
lts
S.VIRET
DataG4
DataG4
•Good agreement (the width reduction with energy is correctly reproduced with G4)•xtalk effect small•enoise effect significant at low energy
Results3. Width on 21 strips
W21strips
11
![Page 13: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/13.jpg)
G4 Validation meeting (5/11/2003)
Ž A
naly
sis
&
resu
lts
S.VIRET
Barycentre position (on 3 strips)
Width (on 3 strips)
Strips units
En
erg
y d
ep
osit
Strips units
En
erg
y d
ep
osit
Œ
EŒstrips = E
strips
but
WŒ3 < W
3
Strip granularity effect
Geometrical effect well reproduced by G4 simulation including xtalk
Results4. Width on 3 strips (1/2)
12
![Page 14: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/14.jpg)
G4 Validation meeting (5/11/2003)
Ž A
naly
sis
&
resu
lts
S.VIRET
DataG4
DataG4
After correction of granularity effect (polynomial fit)
•Good agreement•xtalk effect significant (see slide 9)•enoise effect small
W3strips
Results5. Width on 3 strips (2/2)
13
![Page 15: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/15.jpg)
G4 Validation meeting (5/11/2003)
Conclusions
Con
clu
sio
n
S.VIRET 14
•A comparison G4/Data of photon shape parameters in the ATLAS Ecal was performed. •Crosstalk & e-noise were included•The real experimental setup (with mag. field, converter, and target) was simulated (in order to compare width evolution with photon energy).
Energy independent measurements were compatible with G3 and data (except E1
ecore and E1
etot).Energy dependent measurements (not done with
G3) were in good agreement with data. The width reduction is well reproduced by Geant4
•The description of photon shower by G4 is equivalent to G3’s. •But some points still need to be understood (Is G. Graziani’s electron’s description valid for photons ?,...).
![Page 16: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/16.jpg)
Backupslides
![Page 17: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/17.jpg)
The correlation between electron position and Photon energy
Applying cuts on d, we could study
photons at different energies
d = 3060
178 - Eph cm
Eph + Ee = 178 GeV
G4 Validation meeting (5/11/2003)S.VIRET B1
![Page 18: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/18.jpg)
Geometry & Magnetic
field are OK
Next step:Physics
calibration
Geometry & magnetic field verification
& position in
agreement with data
G4 Validation meeting (5/11/2003)S.VIRET B2
![Page 19: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/19.jpg)
Energy calibration 1. The method
Etot = (Ips + Ibarrel)
Energy calibration Find &
Simu output
(current)
Data output
(energy)
Basic method (only one cell (28,10)):
Correct & modulation
Œ
= <Eps>data
<Ips>simu
Ž =
<Ibarrel>simu
<Etot>data - <Ips>simu
Determine <Eps>data, <Ips>simu, <Etot>data, and
<Ibarrel>simu
G4 Validation meeting (5/11/2003)S.VIRET B3
![Page 20: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/20.jpg)
E
= (0.64 0.01) %
E
= (0.79 0.02) %
G4 Simu
Data
Energy calibration 2. The problem
Material found in the beam in 2001 could be an
answer to this problem
Something was missing in the simulation
MC resolution was better than expected
245 GeV electrons were simulated with the same program
G4 Validation meeting (5/11/2003)S.VIRET B4
![Page 21: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/21.jpg)
Energy calibration 3. Adding the material
Beam spot
Particle directio
n
Ironrods
Material found in the beam in
2001Energy deposit in PS:
material seems to be well reproduced
Eta profile Eta vs. phi
G4 Validation meeting (5/11/2003)S.VIRET B5
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Energy calibration 4. It looks better...
E
= (0.80 0.01) %
E
= (0.79 0.02) %
Data
G4 Simu =
2.614
= 5.787
Energy calibration OK (for (28,10)
cell)
Next step: photons
MC & Data resolution in agreement
G4 Validation meeting (5/11/2003)S.VIRET B6
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G4 Validation meeting (5/11/2003)
e-noise determination
S.VIRET B7
e-noise could be deduced using random events (no signal)
E(GeV)
e-noise/strip
Fitted with a gaussian centered on 0 and with = 13MeV
(compatible with TDR value)
![Page 24: G4 Validation meeting (5/11/2003) S.VIRET LPSC Grenoble Photon testbeam Data/G4 comparison Motivation Testbeam setup & simulation Analysis & results.](https://reader036.fdocuments.us/reader036/viewer/2022062500/5697bfc01a28abf838ca3ef1/html5/thumbnails/24.jpg)
G4 Validation meeting (5/11/2003)
S3 cut
S.VIRET B8
Pedestal
Charged particles
(1&2)
Converted photons (>1 conversion)
Data G4
cut values
S3 signal S3 signal
Peak heights are not similar because data’s values are
smeared