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@ARTICLE{Adamczyk:603176,
author = {Adamczyk, K. and Aggarwal, L. and Aihara, H. and Aziz, T.
and Babu, V. and Bacher, S. and Bahinipati, S. and Bari, M.
and Baroncelli, Ti. and Baroncelli, To. and Bassi, G. and
Batignani, G. and Baudot, J. and Bauer, A. and Behera, P. K.
and Bergauer, T. and Bertacchi, V. and Bettarini, S. and
Bilka, T. and Bosi, F. and Bosisio, L. and Bozek, A. and
Buchsteiner, F. and Bulla, L. and Casarosa, G. and Cautero,
G. and Ceccanti, M. and Chen, Y. Q. and Chendvankar, S. R.
and Corona, L. and Cristaudo, P. and Czank, T. and Das, S.
B. and Dash, N. and de Marino, G. and De Nuccio, M. and De
Pietro, G. and Divekar, S. T. and Dolejschi, P. and
Doležal, Z. and Dujany, G. and Dutta, D. and Finck, C. and
Fischer, K. D. and Forti, F. and Friedl, M. and Frühwirth,
R. and Gabrielli, A. and Ganiev, E. and Gfall, I. and
Giuressi, D. and Gobbo, B. and Halder, S. and Hara, K. and
Hazra, S. and Higuchi, T. and Himori, S. and Horiguchi, T.
and Irmler, C. and Ishikawa, A. and Jeon, H. B. and Jin, Y.
and Joo, C. and Kaleta, M. and Kaliyar, A. B. and Kandra, J.
and Kang, K. H. and Kapusta, P. and Kodyš, P. and Kohriki,
T. and Koike, S. and Kolwalkar, M. M. and Komarov, I. and
Kumar, M. and Kumar, R. and Kvasnička, P. and La Licata, C.
and Lalwani, K. and Lanceri, L. and Lautenbach, K. and
Leboucher, R. and Lee, S. C. and Lee, J. Y. and
Lettenbichler, J. and Li, Y. B. and Libby, J. and Lueck, T.
and Maity, S. and Mammini, P. and Manfredi, R. and Martel,
L. and Martini, A. and Massaccesi, L. and Mayekar, S. N. and
Mohanty, G. B. and Mohanty, S. and Grimaldo, J. A. Mora and
Morii, T. and Nakamura, K. R. and Natkaniec, Z. and Negishi,
K. and Nisar, N. K. and Oberegger, M. and Onuki, Y. and
Ostrowicz, W. and Otani, F. and Paladino, A. and Palka, H.
and Paoloni, E. and Park, H. and Pernicka, M. and Pilo, F.
and Pirker, J. and Polat, L. and Profeti, A. and Rao, K. K.
and Rashevskaya, I. and Resmi, P. K. and Ripp-Baudot, I. and
Rizzo, G. and Rout, N. and Rozanska, M. and Sahoo, D. and
Saito, T. and Sandilya, S. and Sasaki, J. and Sato, N. and
Sato, Y. and Schultschik, S. and Schwanda, C. and Seino, Y.
and Serrano, J. and Shimasaki, T. and Shimizu, N. and
Steininger, H. and Stypula, J. and Suzuki, J. and Tanaka, S.
and Tanigawa, H. and Taylor, G. N. and Tenchini, F. and
Thalmeier, R. and Thomas, R. and Tiwary, R. and Tsuboyama,
T. and Uematsu, Y. and Valentan, M. and Vitale, L. and
Volpi, M. and Wan, K. and Wang, Z. and Watanabe, M. and
Watanuki, S. and Watson, I. J. and Webb, J. and Werbycka, O.
and Wiechczynski, J. and Williams, S. and Würkner, B. and
Yin, H. and Zanetti, A. and Zani, L. and Zhang, T.},
collaboration = {Belle II {SVD Collaboration}},
title = {{T}he design, construction, operation and performance of
the {B}elle {II} silicon vertex detector},
journal = {Journal of Instrumentation},
volume = {17},
number = {11},
issn = {1748-0221},
address = {London},
publisher = {Inst. of Physics},
reportid = {PUBDB-2024-00813, arXiv:2201.09824},
pages = {P11042},
year = {2022},
note = {199 pages, 152 figures},
abstract = {The Silicon Vertex Detector of Belle II is a
state-of-the-art tracking and vertexing system based on
double-sided silicon strip sensors, designed and fabricated
by a large international collaboration in the period
2012–2018. Since 2019 it has been in operation providing
high quality data with a small number of defective channels
$(<1\%),$ a large hit-finding efficiency $(>99\%),$ a good
signal-to-noise ratio (well in excess of 10 for all sensor
configurations and tracks). Together with the good control
over the alignment, these are all essential factors to
achieve good tracking reconstruction and physics
performance. In this extended paper we try to document all
the aspects of the SVD challenges and achievements, in the
spirit of providing information to the broader community and
help the development of high quality detector systems, which
are essential tools to carry out physics research.},
keywords = {activity report (INSPIRE) / BELLE (INSPIRE) / vertex
detector (INSPIRE) / performance (INSPIRE) / quality
(INSPIRE) / efficiency (INSPIRE) / alignment (INSPIRE) /
semiconductor detector: microstrip (INSPIRE) / detector:
design (INSPIRE) / fabrication (INSPIRE) / Front-end
electronics for detector readout (autogen) / Instrumentation
for particle accelerators and storage rings - high energy
(linear accelerators, synchrotrons) (autogen) /
Instrumentation for particle accelerators and storage rings
- high energy (autogen) / Particle tracking detectors
(autogen) / Solid state detectors (autogen) / Si microstrip
and pad detectors (autogen) / Front-end electronics for
detector-readout (autogen) / Radiation damage to detector
materials (solid state) (autogen) / Detector alignment and
calibration methods (autogen) / Detector cooling and
thermo-stabilization (autogen) / Detector design and
construction technologies and materials (autogen) / Detector
grounding (autogen) / Overall mechanics design (support
structures and materials, vibration analysis etc) (autogen)
/ Voltage distributions (autogen)},
cin = {FHTestBeam},
ddc = {610},
cid = {I:(DE-H253)FHTestBeam-20150203},
pnm = {6G3 - PETRA III (DESY) (POF4-6G3)},
pid = {G:(DE-HGF)POF4-6G3},
experiment = {EXP:(DE-H253)TestBeamline24-20150101},
typ = {PUB:(DE-HGF)16},
eprint = {2201.09824},
howpublished = {arXiv:2201.09824},
archivePrefix = {arXiv},
SLACcitation = {$\%\%CITATION$ = $arXiv:2201.09824;\%\%$},
UT = {WOS:000928243500012},
doi = {10.1088/1748-0221/17/11/P11042},
url = {https://bib-pubdb1.desy.de/record/603176},
}
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