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@inproceedings{yotsuzuka:ipac2021-mopab325, author = {M. Yotsuzuka and T. Iijima and K. Inami and Y. Kondo and T. Mibe and Y. Nakazawa and M. Otani and N. Saito and Y. Sue and K. Sumi and Y. Takeuchi and H.Y. Yasuda}, % author = {M. Yotsuzuka and T. Iijima and K. Inami and Y. Kondo and T. Mibe and Y. Nakazawa and others}, % author = {M. Yotsuzuka and others}, title = {{Development of Bunch Width Monitor with High Time Resolution for Low Emittance Muon Beam in the J-PARC Muon g-2 / EDM Experiment}}, booktitle = {Proc. IPAC'21}, pages = {1004--1007}, eid = {MOPAB325}, language = {english}, keywords = {emittance, experiment, acceleration, linac, laser}, venue = {Campinas, SP, Brazil}, series = {International Particle Accelerator Conference}, number = {12}, publisher = {JACoW Publishing, Geneva, Switzerland}, month = {08}, year = {2021}, issn = {2673-5490}, isbn = {978-3-95450-214-1}, doi = {10.18429/JACoW-IPAC2021-MOPAB325}, url = {https://jacow.org/ipac2021/papers/mopab325.pdf}, note = {https://doi.org/10.18429/JACoW-IPAC2021-MOPAB325}, abstract = {{The J-PARC muon g-2/EDM experiment plans to measure the muon anomalous magnetic moment and electric dipole moment sensitive to new physics with high precision. This experiment uses a novel method using the low-emittance muon beam achieved by cooling and re-acceleration. In the muon linac consisting of four different accelerating cavities, the main cause of the emittance growth is the beam mismatch between the different cavities. Especially for the cavity in the low-beta section (ß=0.08-0.27), the longitudinal acceptance is narrow and beam mismatch has a significant impact. In order to perform beam matching in the low-beta cavity, a new beam monitor that can measure the low-emittance muon beam with high time resolution is required. Therefore, we developed a bunch width monitor (BWM) using a microchannel plate. The time resolution of the BWM was measured to be 40 picoseconds on the test bench using a picosecond pulse laser. It means that the BWM is possible to perform diagnosis with a phase accuracy of 1% for the acceleration phase of 324 MHz. We also evaluated factors that limit the current time resolution. In this presentation, the results of an evaluation of the BWM are reported.}}, }