Post on 30-Dec-2015
CBM-ToF vs
RPC workshop
D. Gonzalez-Diaz and A. Schüttauffor the CBM-TOF working group
26-02-2008
1. Fundamentals
2. Systems
3. Ageing
4. Gas System
5. Detector Control System
6. Electronics
1. Fundamentals
C2H2F4/C4H10/SF6 (94.7/5/0.3)
2 mm RPCs
G. ChiodiniGas properties
resolution better than 20 μm!
(interesting alternative to studies based on UV illumination)
W. RieglerTiming (I)
Power law cluster size distribution
1/n2 cluster size distribution
HEED
Semi-analytical generalization of FGM model (Fonte, Gobbi Mangiarotti) including cluster size distribution.
A. SchüttaufTiming (II)
Systematic study on the effect of SF6 in the mixture
N. MajumdarElectrostatics
Calculations based on the nearly exact Boundary Element Method (neBEM) were described. For regions where the field has singularities it is much better than conventional FEM.
ALSO: A new approach for simulating 3D avalanche dynamics (PARSUE: Particles on Surface) was introduced and further work will follow.
spacer
D. Gonzalez-DiazM. Morales
Glass response
cellcell
N
isi
s
is
s
A RCttC
tqCC
C
tqACti )/)(exp(
)()(
)()(
MC reproducing the RPC transient behaviour at high rates, before reaching the DC (stationary) situation.
C. Lippmann
Response to annihilation photons
Annihilation photons from a Na source are often used for a first test of timing performances, yielding resolutions at the level of 90 ps.
The simulated time resolution of ~37ps (at 100kV/cm) does not confirm the measured results, which are much worse (~90ps), and highly independent from the field.
But there is still some work going on... maybe this apparent puzzle is solved in time for the proceedings??
Sorry, the uploaded talk is incomplete
2. Systems
The famous HARP '500 ps' effect has a 'real' contribution from the energy loss and a 'fake' contribution from the momentum reconstruction
HARP J. Wotschack
FOPI A. Schüttauf
v [cm/ns]
p [
Ge
V/c
]
pdt
+
-
K+
K-
Preliminary: interesting correlation with energy loss (factor 4 increase in dEdx yields 16% increase in <Q>) --> practical use?
HADES P. Fonte, P. Cabanelas
10 15 20 25 301
1.05
1.1
1.15
1.2
Row
Mea
n C
lust
er S
ize
1.023
1.023
1.0694Fully shielded region
cross-talk performances
Further shielding betweenfeedthrougs. Cross-talk is a delicate issue!
3. Ageing
Cathode ONLY
structural modification
A plausible alternative to the intuitive picture based on HF corrosion was proposed -> increased sputtering of positive ions due to adsorbed fluorine:
No change in dark current for ageing tests.
Here, showed an example of the detailed studies performed by inducing fast ageing in the chambers through operation in sustained discharge
[Chemical sputtering of fluorinated silicon, Yung-Yi Tu, Physical Review B, vol. 23, n.2, 1982]
Glass L. Lopes
4. Gas system
Open loop with recovery system Joshi
(~1/10 times cheaper than ATLAS closed loop mode according to the speaker [?])
Closed loop R. Guida
Fresh mixture
A zoom of the same region for the mixture before and after the purifiers:
Not all extra peaks can be filtered, with any combination of the tested filters (signals 2, 4 remain)It seems that the Ni filter produce or enhance one extra signal (number 8)
Purifiers: - better configuration (?) - effectiveness - lifetime - regeneration process
Recirculation: which fraction (?)
Purifiers: - better configuration (?) - effectiveness - lifetime - regeneration process
Recirculation: which fraction (?)
CMS
Gas contamination Ferroni
BaBar
Second chamber in a series gets sick
5. Detector control system
Gas gap health parameters
Gas mixture composition fluoride production and entrapment Gas flow (1 change/h with radiation) and line tightness Relative humidity both in the atmosphere and in the gas
mixture (30%<RH<50%) Temperature (possibly 21 °C max 24 for a few unlucky
cases) ohmic and exponential currents plate resistivity
F.E. and readout stability
LV current absorption stable and within the foreseen levels, channel by channel (any variation points out a problem)
Current pull down stability Periodic monitoring of the softest workable thresholds
ATLAS
G. AielliWhat to monitor?
6. Electronics
A. GilPseudo-random pulse generator for RPC-FEE testing of jitter, cross-talk, stability (RYGEL)
AND
Systems
ALICE 33 ps 15-20 ps 25 ps 15 ps 40 mW/ch
HADES 40 ps 15 ps 37 ps 0 ps 0.4 W/ch
FOPI 25 ps 15 ps 12 ps 15 ps 0.51 W/ch
FEE Digitizer Misc. W/chFull chain
D. Belver, G. Scioli, A. Schüttauf
ALICE system performance
Global time resolution < 100
ps
σ2TOT = σ2
MRPC + σ2T0 + σ2
CLK + σ2CLK-TRM + σ2
CAL
MRPC+
ELEC.(50 ps)
Clockfrom LHCto crates(15 ps)
(50 ps)For Pb-Pbby TOF for2000-3000chargedparticles (5 – 10 ps)
(10 ps)
Different time delay of different channels(cable lengths and timeslewing) (30 ps)
G. Scioli
Conclusions.
Current ToF systems (HARP, FOPI, HADES) show routinely resolutions at the level of 100 ps or better.
Response to annihilation photons not yet understood. Pseudo-Random test pulser available for FEE stability tests. Difficulties of cross-talk elimination illustrated (and overcame). Open loop is not possible in view of high cost and environment
contamination. Separation of gases at the end of the circuit and re-injection, or a re-circulating system seem to be valid options.
Role of F in ageing poorly understood. In CBM, due to the x100 higher rates than normal tRPCs, the effects are likely to be much more dramatic.
Poisoning of second chamber in a series clearly observed. Effect of SF6 in time resolution systematically studied. Some dEdx PiD capabilities preliminary shown. HARP '500 ps' effect vanished. Laser method for fundamental studies seems to be an useful tool!. Existing electronics chains can do the job, but ASIC is always much
better in terms of power dissipation.