IPAC'23 - Student Poster Session Guide

IPAC’23 / STUDENT POSTER SESSION GUIDE 39 Student Poster Session Baran (Ankara University), Emre Celebi, Erkcan Ozcan (Bogazici University), Fatih Yaman (Izmir In- stitute of Technology), Gokhan Unel (University of California Irvine), Gorkem Turemen, Umit Kaya (Turkish Energy, Nuclear and Mineral Research Agency). An 800 MHz, four vane Radio Frequency Quadrupole (RFQ) was designed to accelerate the pro- ton beam to 2 MeV energy at a distance shorter than one meter in KAHVE-Lab,Turkey. A half length test module was also previously produced to investigate the local manufacturability of this high frequency RFQ cavity. The manufactured test module was subjected to mechanical, vacuum and electromagnetic tests to adjust the pressure, EM field and frequency parameters to the desired operational settings. Results from these tests were also used to improve the final manufacturing process for the two modules of the RFQ which has ended successfully in Q4 2022. The finished RFQ, after being fully assembled for the first time, was initially subjected to the vacuum leak tests followed by the low level RF and power tests. The KAHVE-Lab proton beamline is planned to be fully integrated and commissioned by the end of 2023. This study in- troduces a general framework about the current status of the 800 MHz RFQ, and discusses the ongoing commissioning studies. This project is supported by The Scientific and Technological Research Council of Turkey(TUBITAK) Project no: 118E838 SUPM071 Development of the diagnostic beamline for muon acceleration test with APF IH-DTL Yuka Ibaraki (Nagoya University) . Ersin Cicek, Hiroyasu Ego, Masashi Otani, Mitsuhiro Yoshida, Naohito Saito, Naritoshi Kawamura, Takayuki Yamazaki, Tsutomu Mibe (High Energy Accelerator Research Organization), Kazumichi Sumi, Kenji Inami, Mai Yotsuzuka, Toru Iijima, Yuki Sue (Nagoya University), Noriyosu Hayashizaki (Research Laboratory for Nuclear Research), Ryo Kitamura (Japan Proton Accelerator Research Com- plex (J-PARC)), Takatoshi Morishita, Yasuhiro Kondo (Japan Atomic Energy Agency), Yoshiyuki Iwata (National Institute of Radiological Sciences), Yuga Nakazawa (Ibaraki University), Yusuke Takeuchi (Kyushu University). The muon-dedicated linear accelerator is being developed for the muon g-2/EDM experiment at J-PARC. To suppress the decay loss during acceleration, the alternative phase focusing (APF) method inter-digital H-mode drift tube linac (IH-DTL) is adopted in the low-velocity region fol- lowing a radio-frequency quadrupole linac (RFQ). We are planning to accelerate muons in 2024 using the RFQ and the IH-DTL which will accelerate muons from 8% to 30% of the speed of light with an operating frequency of 324 MHz. After the IH-DTL, a diagnostic beamline will be placed to measure the beam energy and quality after acceleration, and its design, which consists of magnets and bunchers, is underway. In this poster, we will report on the development status of the diagnostic beamline. SUPM072 Calculation for a compact laser plasma undulator beamline based on the experimental electron parameters at NCU Shan-You Teng (National Central Univeristy) . Shao-Wei Chou, Shih-Hung Chen (National Central Univeristy), Wai Lau, Wei-Yuan Chiang (National