Tailoring Surface Impurity Content to Maximize Q-factors of Superconducting Resonators

Martinello, Martina; Checchin, Mattia; Grassellino, Anna; Melnychuk, Oleksandr; Posen, Sam; Romanenko, Alexander; Sergatskov, Dmitri; Zasadzinski, John

doi:10.18429/JACoW-IPAC2016-WEPMR003

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RIS citation export for WEPMR003: Tailoring Surface Impurity Content to Maximize Q-factors of Superconducting Resonators

TY - CONF
AU - Martinello, M.
AU - Checchin, M.
AU - Grassellino, A.
AU - Melnychuk, O.S.
AU - Posen, S.
AU - Romanenko, A.
AU - Sergatskov, D.A.
AU - Zasadzinski, J.
ED - Schaa, Volker RW
ED - Petit-Jean-Genaz, Christine
ED - Ko, In Soo
ED - Kim, Dong Eon
ED - Kim, Kyung Sook
TI - Tailoring Surface Impurity Content to Maximize Q-factors of Superconducting Resonators
J2 - Proc. of IPAC2016, Busan, Korea, May 8-13, 2016
C1 - Busan, Korea
T2 - International Particle Accelerator Conference
T3 - 7
LA - english
AB - Quality factor of superconducting radio-frequency (SRF) cavities is degraded whenever magnetic flux is trapped in the cavity walls during the cooldown. In this contribution we study how the trapped flux sensitivity, defined as the trapped flux surface resistance normalized for the amount of flux trapped, depends on the mean free path. A variety of 1.3 GHz cavities with different surface treatments (EP, 120 C bake and different N-doping) were studied in order to cover the largest range of mean free path nowadays achievable, from few to thousands of nanometers. A bell shaped trend appears for the range of mean free path studied. Over doped cavities falls at the maximum of this curve defining the largest values of sensitivity. In addition, we have also studied the trend of the BCS surface resistance contribution as a function of mean free path, revealing that N-doped cavities follow close to the theoretical minimum of the BCS surface resistance as a function of the mean free path. Adding these results together we unveil that optimal N-doping treatment allows to maximize Q-factor at 2 K and 16 MV/m until the magnetic field fully trapped during the cavity cooldown stays below 10 mG.
PB - JACoW
CP - Geneva, Switzerland
SP - 2258
EP - 2261
KW - cavity
KW - superconductivity
KW - niobium
KW - simulation
KW - factory
DA - 2016/06
PY - 2016
SN - 978-3-95450-147-2
DO - 10.18429/JACoW-IPAC2016-WEPMR003
UR - http://jacow.org/ipac2016/papers/wepmr003.pdf
ER -