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@ARTICLE{Aune:320871,
author = {Aune, B. and Bandelmann, R. and Bloess, D. and Bonin, B.
and Bosotti, A. and Champion, M. and Crawford, C. and Deppe,
G. and Dwersteg, B. and Edwards, D. A. and Edwards, Helen
and Ferrario, M. and Fouaidy, M. and Gall, P-D. and Gamp, A.
and Gössel, A. and Graber, J. and Hubert, D. and Huening,
Markus and Juillard, M. and Junquera, T. and Kaiser, H. and
Kreps, G. and Kuchnir, M. and Lange, R. and Leenen, M. and
Liepe, M. and Lilje, L. and Matheisen, A. and Möller, W-D.
and Mosnier, A. and Padamsee, H. and Pagani, C. and Pekeler,
M. and Peters, H-B. and Peters, O. and Proch, D. and
Rehlich, K. and Reschke, D. and Safa, H. and Schilcher, T.
and Schmüser, P. and Sekutowicz, J. and Simrock, S. and
Singer, W. and Tigner, M. and Trines, D. and Twarowski, K.
and Weichert, G. and Weisend, J. and Wojtkiewicz, J. and
Wolff, S. and Zapfe, K.},
title = {{T}he superconducting {TESLA} cavities},
journal = {Physical review accelerators and beams},
volume = {3},
number = {9},
issn = {1098-4402},
address = {College Park, MD},
publisher = {American Physical Society},
reportid = {PUBDB-2017-02147, physics/0003011. DESY-00-031},
pages = {092001},
year = {2000},
note = {M-Bereich},
abstract = {The conceptional design of the proposed linear
electron-positron collider TESLA is based on 9-cell 1.3 GHz
superconducting niobium cavities with an accelerating
gradient of Eacc >= 25 MV/m at a quality factor Q0 > 5E+9.
The design goal for the cavities of the TESLA Test Facility
(TTF) linac was set to the more moderate value of Eacc >= 15
MV/m. In a first series of 27 industrially produced TTF
cavities the average gradient at Q0 = 5E+9 was measured to
be 20.1 +- 6.2 MV/m, excluding a few cavities suffering from
serious fabrication or material defects. In the second
production of 24 TTF cavities additional quality control
measures were introduced, in particular an eddy-current scan
to eliminate niobium sheets with foreign material inclusions
and stringent prescriptions for carrying out the
electron-beam welds. The average gradient of these cavities
at Q0 = 5E+9 amounts to 25.0 +- 3.2 MV/m with the exception
of one cavity suffering from a weld defect. Hence only a
moderate improvement in production and preparation
techniques will be needed to meet the ambitious TESLA goal
with an adequate safety margin. In this paper we present a
detailed description of the design, fabrication and
preparation of the TESLA Test Facility cavities and their
associated components and report on cavity performance in
test cryostats and with electron beam in the TTF linac. The
ongoing $R\&D$ towards higher gradients is briefly
addressed.},
keywords = {electron positron: linear collider (INSPIRE) / linear
collider: proposed (INSPIRE) / RF system: superconductivity
(INSPIRE) / niobium (INSPIRE) / electric field: upper limit
(INSPIRE) / fabrication (INSPIRE) / RF system: power supply
(INSPIRE) / microwaves: energy loss (INSPIRE) / DESY Lab
(INSPIRE) / bibliography (INSPIRE)},
cin = {DESY(-2012)},
ddc = {530},
cid = {$I:(DE-H253)DESY_-2012_-20170516$},
pnm = {899 - ohne Topic (POF3-899)},
pid = {G:(DE-HGF)POF3-899},
experiment = {EXP:(DE-MLZ)NOSPEC-20140101},
typ = {PUB:(DE-HGF)29 / PUB:(DE-HGF)16},
UT = {WOS:00},
doi = {10.1103/PhysRevSTAB.3.092001},
url = {https://bib-pubdb1.desy.de/record/320871},
}
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