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@inproceedings{kilicgedik:linac2022-tupopa12, author = {A. Kilicgedik and A. Adiguzel and B. Baran and A. Caglar and E. Celebi and S. Esen and U. Kaya and E.V. Ozcan and G. Türemen and G. Unel and F. Yaman}, % author = {A. Kilicgedik and A. Adiguzel and B. Baran and A. Caglar and E. Celebi and S. Esen and others}, % author = {A. Kilicgedik and others}, title = {{RF Measurements and Tuning of the Test Module of 800 MHz Radio-Frequency Quadrupole}}, booktitle = {Proc. LINAC'22}, % booktitle = {Proc. 31st International Linear Accelerator Conference (LINAC'22)}, pages = {438--440}, eid = {TUPOPA12}, language = {english}, keywords = {rfq, proton, quadrupole, radio-frequency, simulation}, venue = {Liverpool, UK}, series = {International Linear Accelerator Conference}, number = {31}, publisher = {JACoW Publishing, Geneva, Switzerland}, month = {09}, year = {2022}, issn = {2226-0366}, isbn = {978-3-95450-215-8}, doi = {10.18429/JACoW-LINAC2022-TUPOPA12}, url = {https://jacow.org/linac2022/papers/tupopa12.pdf}, abstract = {{The 800 MHz RFQ (radio-frequency quadrupole), developed and built at KAHVElab (Kandilli Detector, Accelerator and Instrumentation Laboratory) at Bogazici University in Istanbul, Turkey, has been designed to provide protons that have an energy of 2 MeV within only 1 m length. The RFQ consists of two modules and the test module of RFQ was constructed. The algorithm developed by CERN, based on the measurements generated by the tuner settings estimated through the response matrix [1,2,3], has been optimized for a single module and 16 tuners. The desired field consistent with the simulation was obtained by bead pull measurements. In this study, we present low-power rf measurements and field tuning of the test module.}}, }