Simulation of longitudinal dynamics of laser-cooled and RF-bunched C$^{3+}$ ion beams at heavy ion storage ring CSRe
Xiao-Ni Li, Wei-Qiang Wen, Heng Du, Peng Li, Xiao-Hu Zhang, Xue-Jing, Hu, Guo-Feng Qu, Zhong-Shan Li, Wen-Wen Ge, Jie Li, Han-Bing Wang, Jia-Wen, Xia, Jian-Cheng Yang, Xin-Wen Ma, You-Jin Yuan

TL;DR
This paper presents a detailed simulation study of the longitudinal dynamics of laser-cooled C$^{3+}$ ion beams at the CSRe storage ring, aiding the design and interpretation of future laser cooling experiments.
Contribution
A multi-particle tracking simulation method was developed to analyze laser cooling of relativistic heavy ion beams, providing optimized parameters and insights into experimental conditions.
Findings
Laser cooling can be achieved with a combination of CW laser and RF-buncher.
Optimized RF-buncher and laser parameters were identified for effective cooling.
Schottky noise spectra simulations help interpret experimental results.
Abstract
Laser cooling of relativistic heavy ion beams of Li-like C and O is being in preparation at the experimental Cooler Storage Ring (CSRe). Recently, a preparatory experiment to test important prerequisites for laser cooling of relativistic C ion beams using a pulsed laser system has been performed at the CSRe. Unfortunately, the interaction between the ions and the pulsed laser cannot be detected. In order to study the laser cooling process and find the optimized parameters for future laser cooling experiment, a multi-particle tracking method was developed to simulate the detailed longitudinal dynamics of laser-cooled ion beams at the CSRe. The simulations of laser cooling of the C ion beams by scanning the frequency of RF-buncher or continuous wave (CW) laser wavelength were performed. The simulation results indicated that a large momentum spread…
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