ibf in thgem-based photon detectors, an update
DESCRIPTION
IBF in THGEM-based PHOTON DETECTORS, an update. S. Dalla Torre on behalf of an Alessandria , Aveiro, CERN , Freiburg, Liberec, Prague , Torino, Trieste Collaboration. PREVIOUS TALK: F. TESSAROTTO, June 2012. LAY-OUT. INTRODUCTION STATUS 1 YEAR AGO (REMINDER) FINAL RESULTS - PowerPoint PPT PresentationTRANSCRIPT
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RD51 Collaboration meeting, CERN 21-23/4/2013
IBF in THGEM-based PHOTON DETECTORS,
an updateS. Dalla Torre
on behalf of an
Alessandria , Aveiro, CERN, Freiburg, Liberec, Prague, Torino, TriesteCollaboration
PREVIOUS TA
LK:
F. TESSAROTTO, J
une 201
2
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LAY-OUT
INTRODUCTION
STATUS 1 YEAR AGO (REMINDER)
FINAL RESULTS
CONCLUSIONS
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
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INTRODUCTION
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
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IBF in Photon DetectorsThe relevant IBF in Photon Detectors (PD):
Photocathode bombardment
A problem already in vacuum-based PDs, when the vacuum is degraded
In gas PDs the tolerable bombardment depends on the photoconverter: CSI: non negligible QE for l < 210 nm (VUV)
The highest work function among usual photoconverter QE degradation: integrated Q > a few mC/cm2 ageing, limited
gain High resistivity: difficulty to neutralized the charge (Malter
effect) limited gain IBF rates a few times 10-2 required
Visible light photoconverters: K-Cs-Sb, Na-K-Sb QE degradation: integrated Q > a few mC/mm2
IBF rates a few times 10-4 required Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
OUR
INTEREST
H. H
oedl
mos
er e
t al.,
NIM
A 5
74 (2
007)
28.
A.Br
eski
n et
al.,
N
IMA
553
(200
5) 4
6
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IBF in GAS PDs, THE DILEMMA
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
• High E at the photocathode surface required for effective photoelectron extraction
• High E at the photocathode surface increases the IBF rate
• More field lines end at the photocathode• Extra intermediate electrodes ( (F-R) MHSP, COBRA )• THGEM: staggered geometries
C. D
. R. A
zeve
do e
t al.,
201
0 JI
NS
T 5
P01
002
F. Sauli , L. Ropelewski, P. Everaerts, NIMA 560 (2006) 269.A.V. Lyashenko et al.,
JINST 2 (2007) P08004
MHSP
COBRA
A.V. Lyashenko et al., NIMA 598 (2009) 116
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IBF, our needs and goals PIDs (and other ionization sources) must be
taken in account as well IN COMPASS RICH-1 environment:
NOTE: we normalize to the total ionization
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
NOW FUTURE
Reverse Bias !!!
GOAL !!!
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STATUS 1 YEAR AGO
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
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IBF suppression by extra electrodes
THICK COBRA IBF rate ~ 5% (F.D. Amaro et al., JINST 5 (2010) P10002;
J.F.C.A. Veloso et al., NIMA 639 (2011) 134) Our analysis, geometrical constrains
Assuming traces and clearance at least 0.2 mm hole diameter d 0.3 mm, pitch p 1.2 mm namely d/p=0.25, while d/p=0.5 is needed (photoelectron extraction, total gain)
Extra wire plane (technical difficulties)
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
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IBF suppression by staggered holes
Standard staggeredconfiguration
Flower configuration But low gain and efficiency: abandoned
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
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FINAL RESULTS
(published: M. Alexeev et al., 2013 JINST 8 P0102)
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
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11 Silvia DALLA TORRE
IBF: staggered vs aligned
RD51 Collaboration meeting, CERN 21-23/4/2013
A -aligned
M -misaligned
IBFR (%)
A
E
TR2 (
kV/c
m)
M
E
TR2 (
kV/c
m)
ETR1 (kV/cm)
Effective GAIN (x 104)
ETR1 (kV/cm)
E
TR2 (
kV/c
m)
M
A
GAIN: down a factor 2 recover by increasing the voltage
Identical V
IBFR < 5% !
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IBF: staggered vs aligned, more
Gain “recovered” @ ETR1= 1000 V , ETR2= 4000 V DV1 : 1450 V 1480 DV2 : 1500 V 1530 DV3 : 1550 V 1580 Gain: 8 x 104 20 x 104
Large ETR2-values impose large EI-values
@ ETR1= 1000 V, ETR2= 4000 V
RD51 Collaboration meeting, CERN 21-23/4/2013 Silvia DALLA TORRE
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CONCLUSIONS
Silvia DALLA TORRE
RD51 Collaboration meeting, CERN 21-23/4/2013
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14 Silvia DALLA TORRE
CONCLUSIONS
RD51 Collaboration meeting, CERN 21-23/4/2013
IBF rates < 5% are reachable with triple THGEMs preserving good gain Staggered configuration @ ETR1 low (~1000 V) , ETR2 high (~4000 V) EI : high
the resulting total voltage is high In the example provided: Vtot ~ 7.7 kV