材料期刊网

Laser cooling of Li-like C3+ and Oa+ relativistic heavy ion beams is planned at the experimental Cooler Storage Ring (CSRe).Recently,a preparatory experiment to test important prerequisites for laser cooling of relativistic 12C3+ 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 experiments,a multi-particle tracking method has been developed to simulate the detailed longitudinal dynamics of laser-cooled ion beams at the CSRe.Simulations of laser cooling of the 12C3+ion beams by scanning the frequency of the RF-buncher or continuous wave (CW) laser wavelength have been performed.The simulation results indicate that ion beams with a large momentum spread could be laser-cooled by the combination of only one CW laser and the RF-buncher,and show the requirements of a successful laser cooling experiment.The optimized parameters for scanning the RF-buncher frequency or laser frequency have been obtained.Furthermore,the heating effects have been estimated for laser cooling at the CSRe.The Schottky noise spectra of longitudinally modulated and laser-cooled ion beams have been simulated to fully explain and anticipate the experimental results.The combination of Schottky spectra from the highly sensitive resonant Schottky pick-up and the simulation methods developed in this paper will be helpful to investigate the longitudinal dynamics of RF-bunched and ultra-cold ion beams in the upcoming laser cooling experiments at the CSRe.