|
G. Aielli |
Logistic
Saturated Avalanche Model |
|
W. Riegler |
Detailed
Models for Timing and Crosstalk in Resistive Plate Chambers |
|
C. Lippmann |
Space
Charge Effects and Induced Signals in Resistive Plate
Chambers |
|
A. Mangiarotti |
The
Time Response Function of Spark Counters |
|
V. Golovatyuk |
Laser
beam studies of RPC behaviour in avalanche mode |
|
T. Takahashi |
Optical
study of the features of the streamer images in RPC |
|
M. Cwiok |
Effect
of oiling and gas composition on the stability of the RPC
operation |
|
A. Paoloni |
RPC
operation at high temperature |
|
Y. Teramoto |
Study
of the effect of water vapor on a glass RPC with and without
freon |
|
A. Yamaguchi |
Freonless
gas mixtures for glass RPC operated in streamer mode |
|
C. Finck |
Shielded
timing GRPC's |
|
P. Fonte |
Single-Gap
Timing RPCs with Bidimensional Position Sensitive Readout for Very
Accurate TOF systems |
|
M. Petrovici |
Symmetric
Multistrip RPC |
|
D. Autiero |
Test
results from a prototype RPC setup for the OPERA Target
Tracker |
|
V. Barret |
Spatial
resolution of RPC in streamer mode |
|
R. Guida |
RPC Neutron sensitivity |
|
V. Peskov |
Potential
of RPCs for tracking |
|
A. Blanco |
Perspectives
for positron emission tomography (PET) with RPCs |
|
A. Ferretti |
Ageing
tests on the low-resistivity RPC for the ALICE dimuon arm |
|
M. Iacovacci |
Performance
of the RPCs for the ARGO detector operated at the YangBaJing laboratory
(4300 m a.s.l). |
|
R. Perrino |
Assembling
Facility of the ATLAS RPCs |
|
B. Liberti |
Test
of ATLAS RPCs Front-End Electronics |
|
P. Dupieux |
A
new discrimination technique for better timing performances of single gap
RPCs in streamer mode |
|
S. Mari |
Study
of the performance of standard RPC chambers as a function of bakelite
temperature |
| R. Messi |
The
RPC Detector of the LHCb Muon System |
|
G. Pugliese |
Ageing
studies for the RPCs of the CMS Muon Trigger detector |
|
G. Sehkniaidze |
Cosmic
ray tests of RPCs for the ATLAS experiment |
|
P. Vitulo |
Neutron
Single Event Upset cross section on CMS FE chips from thermal energy to 60
MeV |
|
M. Ambrosio |
Performance
of Glass RPC with industrial silk-screening coated
electrodes |
|
G.C. Trinchero |
A
Study of New Techniques for Large Scale Glass RPC production |
|
C. Gustavino |
Performance
of a readout system for MONOLITH |
|
C. Lu |
Mechanisms
affecting Performance of the BaBar RPC Chambers and Searches for
Remediation |
|
J. G. Wang |
A
study of Energy lose and Radiation for RPC detector at Belle/KEKB |
| G. Bruno |
The
RPC system for the CMS experiment at the LHC |
| A. Colaleo |
First
results on the MB2 barrel muon station for the CMS detector |
| K.S. Lee |
Final
Design and the Beam test of the Forward Resistive Plate Chamber for
CMS/LHC Experiments |
| J. Wotschack |
The
RPC time-of-flight system of the HARP experiment |
| D. Della Volpe |
Results
of long term performance and subsequent laboratory tests of RPCs of the L3
forward-backward muon spectrometer |
| G. Ganis |
Preliminary
results from an aging test of a prototype RPC for the LHCb muon
system |
| C. Gustavino |
Analysis
of the performance of the MONOLITH prototype at LNGS |
| S. Dusini |
Design
and prototype tests of the RPC system for the OPERA
spectrometers |
| J. Lamas Valverde |
A
Single Time of flight tray based on Multigap resistive plate chambers for
the STAR experiment at RHIC |
