• [1]

    Mitra A K, Chan A. Design Considerations and Measurements of a 35 MHz Spiral re-buncher Cavity. TRIUMF Design Note, 1998[2] XIAO Chen, HE Yuan, YUAN You-Jin et al. Chinese Physics C (HEP NP), 2011, 35(5): 500-504[3] Hauser J, Klein H, Schempp A. Nuclear Instruments and Methods in Physics Research, 1976, 135(3): 409-414[4] Aoki T, Stinglin L, Kamigaito O et al. Nuclear Instruments and Methods in Physics Research, 2008, 592(3): 171-179[5] Welsch C P, Kunel K U, Schempp A. Development of Rebunching Cavities at IAP. Proceeding of LINAC2000. Monterey California, 2000[6] Aoki T, Stingelin L, Kamigaito O et al. Nuclear Instruments and Methods in Physics Research A, 2008, 592, 171-179[7] LI Zhi-Hui, TANG Jing-Yu. High Power Laser and Particle Beams, 2000, 12(1): 107-110 (in Chinese)[8] Peebles P Z, Parvarandeh M. Particle Accelerators, 2004, 6(3): 201-209[9] Schuh M, Kuhnel K U, Welsch C P. Optimization of Spiral-Load Cavities Using the 3D Code Opera/Soprano. Proceedings of LINAC. Victoria Canada, 2008[10] Mitra A K, Poirier R L. A 35 MHz Siral re-buncher Cavity for the TRIUMF ISAC Facility. Proceedings of 1999 Particle Conference. New York: United Stetes, 1999