Oxygen Ion Beam Dynamics Simulation in the 7.5 MeV/u Injector Linac

The results of the Oxygen 5⁺ beam dynamics simulation in the regular section of a 7.5 MeV/u linear accelerator are presented. Linear accelerator LU-1 consists of several ion sources, RFQ section (Radio Frequency Quadrupole) and two groups of identical IH (Interdigital H-type) cavities. Beam transport between the accelerating sections is done via low energy (LEBT) line, two medium energy MEBT-1 and MEBT-2 lines, and high energy (HEBT) line that transfers the beam to the booster synchrotron or a beam dump. This paper contains the results on Oxygen 5⁺A/Z = 3.2 beam dynamics end-to-end simulation in the LU-1 sections (LEBT, RFQ, MEBT-1, MEBT-2 beam transport lines and both groups of IH cavities).

1. Polozov S.M. et al. // Proc. RuPAC'21. 2021. P. 51. https://doi.org/10.18429/JACoW-RuPAC2021-TUB07.

2. Масунов Е.С., Полозов С.М. // ВАНТ. Сер.: ядернофизич. исслед. 2006. № 3 (47). С. 119.

3. Masunov E.S. // Nucl. Instrum. Methods Phys. Res., Sect. A. 2006. V. 558 (1). P. 184.

4. Samoshin A.V. // Proc. LINAC2012. 2012. P. 630.

5. Uriot D., Pichoff N. // Proc. 6th Intl. Particle Accelerator Conf. (IPAC’15). 2015. P. 92. https://doi.org/10.18429/JACoW-IPAC2015-MOPWA008

6. Crandall K. and Rusthoi D. Report LA-UR-90-4146. 1990. Los Alamos National Laboratory.

7. Dyubkov V.S. // Proc. RuPAC’21. 2021. P. 355.

8. Bres M. et al. // Part. Accel. 1971. V. 2. P. 17.

9. Weis T., Klein H., Schempp A. // IEEE Trans. Nucl. Sci. 1983. V. 30 (4). P. 5348.

10. Kurennoy S., Rybarcyk L., Wangler T. // Proc. PAC’07. 2007. P. 3824.

11. Kurennoy S., O’Hara J., Rybarcyk L. // Proc. HB. 2008. P. 428.

12. Горчаков А.А. и др. // Ядерная физика и инжиниринг. 2022. Т. 13 (3). С. 304 [Gorchakov A.A. et al. // Phys. At. Nucl. 2021. V. 84 (12). P. 2018].

13. Kilpatrick W.D. // Rev. Sci. Instrum. 1957. V. 28 (10). P. 824. https://doi.org/10.1063/1.1715731