| Article | |
| Title | Improvement of the longitudinal phase space tomography at the J-PARC synchrotrons |
| Related title | Improvement of the longitudinal phase space tomography at the J-PARC synchrotrons |
| Author(s) | Okita, H (J-PARC) ; Tamura, F (J-PARC) ; Yamamoto, M (J-PARC) ; Nomura, M (J-PARC) ; Shimada, T (J-PARC) ; Saha, P K (J-PARC) ; Yoshii, M (J-PARC) ; Ohmori, C (J-PARC) ; Sugiyama, Y (J-PARC) ; Hasegawa, K (J-PARC) ; Hara, K (J-PARC) ; Albright, S (CERN) ; Kelliher, D J (Rutherford) |
| Publication | 2024 |
| Number of pages | 7 |
| In: | J. Phys. : Conf. Ser. 2687, 7 (2024) pp.072005 JACoW IPAC 2023 (2023) pp.THPL105 |
| In: | 14th International Particle Accelerator Conference (IPAC 2023), Venice, Italy, 7 - 12 May 2023, pp.072005 |
| DOI | 10.1088/1742-6596/2687/7/072005 10.18429/JACoW-IPAC2023-THPL105 |
| Abstract | The longitudinal phase space tomography, which reconstructs the phase space distribution from the one-dimensional bunch profiles, is used in various accelerators to measure longitudinal beam parameters. At the J-PARC, an implementation of the phase space tomography based on the convolution back projection method has been used to measure the momentum spread of the injected beam. The method assumes that the beam distribution rotates without significant deformation during the synchrotron oscillation. Because of the nonlinearity of synchrotron motion with sinusoidal RF voltage, the method can be used only in limited situations such as small amplitude synchrotron oscillation. Algebraic Reconstruction Techniques (ART) in conjunction with particle tracking, which is implemented in CERN's tomography code, allows accurate reconstructions even for nonlinear large amplitude synchrotron oscillations. We present the overview of the application of CERN's tomography code to the J-PARC synchrotrons. The results of benchmarking are also reported. |
| Copyright/License | CC-BY-3.0, CC-BY-4.0 |
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Record created 2024-05-17, last modified 2024-05-17