@inproceedings{oai:repo.qst.go.jp:00054592,
 author = {Noda, Akira and Nakao, Masao and Souda, Hikaru and Tongu, Hiromu and Okamoto, Hiromi and Osaki, Kazuya and Yuri, Yosuke and Jimbo, Kouichi and Grieser, Manfred and He, Zhengqi and 野田 章 and 中尾 政夫 and 想田 光 and 頓宮 拓 and 岡本 宏己 and 百合 庸介},
 book = {Proceedings of Workshop on Beam Cooling and Related Topics (COOL '13)},
 month = {Nov},
 note = {Utilizing S-LSR which has a super-periodicity of 6 and is designed to be tough against resonant perturbation to the circulating beam, we have tried to approach as low as possible temperature with laser cooled 40 keV 24Mg+ ion beam. With the use of theoretically proposed Synchro-Betatron Resonance Coupling scheme, we have experimentally demonstrated the capability of active indirect transverse laser cooling. At first, the achieved transverse cooling efficiency was limited due to heating caused by intra-beam scattering (IBS). For the purpose of reduction of IBS heating, we have established a scheme to
control the circulating ion beam intensity down to ~104 by scraping the outskirt of the beam with the use of a horizontally moving scraper, which enabled us to cool down the transverse beam temperatures down to 20 K and 29 K for horizontal and vertical directions, respectively for the operation tune without H-V coupling. They were modified to be 40 K and 11 K by the horizontal and vertical coupling with the difference resonance with an excitation of a solenoid of 22.5 G, which were further improved to 7.0 K and 2.1 K adding deceleration by an induction accelerator of 6 mV/m using a -26 MHz detuned laser.},
 pages = {157--161},
 title = {Latest results of experimental approach to ultra-cold beam at S-LSR},
 year = {2013}
}