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@ARTICLE{Atti:491618,
author = {Attié, D. and Batkiewicz-Kwasniak, M. and Billoir, P. and
Blanchet, A. and Blondel, A. and Bolognesi, S. and Calvet,
D. and Catanesi, M. G. and Cicerchia, M. and Cogo, G. and
Colas, P. and Collazuol, G. and Delbart, A. and Dumarchez,
J. and Emery-Schrenk, S. and Feltre, M. and Giganti, C. and
Gramegna, F. and Grassi, M. and Guigue, M. and
Hamacher-Baumann, P. and Hassani, S. and Iacob, F. and
Jesús-Valls, C. and Kurjata, R. and Lamoureux, M. and
Lehuraux, M. and Longhin, A. and Lux, T. and Magaletti, L.
and Marchi, T. and Maurel, A. and Mellet, L. and Mezzetto,
M. and Munteanu, L. and Nguyen, Q. V. and Orain, Y. and
Pari, M. and Parraud, J.-M. and Pastore, C. and Pepato, A.
and Pierre, E. and Popov, B. and Przybiliski, H. and
Radermacher, T. and Radicioni, E. and Riallot, M. and Roth,
S. and Rychter, A. and Scomparin, L. and Steinmann, J. and
Suvorov, S. and Swierblewski, J. and Terront, D. and Thamm,
N. and Toussenel, F. and Valentino, V. and Vasseur, G. and
Yevarouskaya, U. and Ziembicki, M. and Zito, M.},
title = {{C}haracterization of {R}esistive {M}icromegas {D}etectors
for the {U}pgrade of the {T}2{K} {N}ear {D}etector {T}ime
{P}rojection {C}hambers},
journal = {Nuclear instruments $\&$ methods in physics research / A},
volume = {1025},
issn = {0167-5087},
address = {Amsterdam},
publisher = {North-Holland Publ. Co.},
reportid = {PUBDB-2023-00310, arXiv:2106.12634},
pages = {166109},
year = {2022},
note = {32 pages, 22 figures Waiting for fulltext},
abstract = {The second phase of the T2K experiment is expected to start
data taking in autumn 2022. An upgrade of the Near Detector
(ND280) is under development and includes the construction
of two new Time Projection Chambers called High-Angle TPC
(HA-TPC). The two endplates of these TPCs will be paved with
eight Micromegas type charge readout modules. The Micromegas
detector charge amplification structure uses a resistive
anode to spread the charges over several pads to improve the
space point resolution. This innovative technique is
combined with the bulk-Micromegas technology to compose the
“Encapsulated Resistive Anode Micromegas” detector. A
prototype has been designed, built and exposed to an
electron beam at the DESY II test beam facility. The data
have been used to characterize the charge spreading and to
produce its map. Spatial resolution better than 600 μm and
energy resolution better than $9\%$ are obtained for all
incident angles. These performances fulfil the requirements
for the upgrade of the ND280 TPC.},
keywords = {time projection chamber (INSPIRE) / Micromegas (INSPIRE) /
near detector: upgrade (INSPIRE) / detector: design
(INSPIRE) / J-PARC Lab (INSPIRE) / KAMIOKANDE (INSPIRE) /
spatial resolution (INSPIRE) / energy resolution (INSPIRE) /
performance (INSPIRE) / electron: irradiation (INSPIRE) /
Resistive Micromegas (autogen) / T2K Near Detector Time
Projection Chambers (autogen)},
cin = {MDE},
ddc = {530},
cid = {I:(DE-H253)MDE-20120731},
pnm = {622 - Detector Technologies and Systems (POF4-622)},
pid = {G:(DE-HGF)POF4-622},
experiment = {EXP:(DE-MLZ)NOSPEC-20140101},
typ = {PUB:(DE-HGF)16},
eprint = {2106.12634},
howpublished = {arXiv:2106.12634},
archivePrefix = {arXiv},
SLACcitation = {$\%\%CITATION$ = $arXiv:2106.12634;\%\%$},
UT = {WOS:000777573700008},
doi = {10.1016/j.nima.2021.166109},
url = {https://bib-pubdb1.desy.de/record/491618},
}
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