Abstract
“Stochastic cooling” invented based on the requirement from particle physics to create vector bosons by proton–antiproton collision, has attained the reduction of beam emittance in 6 dimensional phase space. “Electron cooling” also enables detailed research of fine structures in electron–molecular ion reactions and realizes one-dimensional ordering of ion beams. Based on these attainments, three-dimensional laser cooling with much stronger cooling force to realize a “Crystalline beam” has been studied. In this chapter, an approach to attain an ultra-low-temperature beam by heat reduction with “Beam cooling” is explained as the ultimate goal.
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Noda, A., Grieser, M., Shirai, T. (2012). Approach to Ultralow Ion-Beam Temperatures by Beam Cooling. In: Shevelko, V., Tawara, H. (eds) Atomic Processes in Basic and Applied Physics. Springer Series on Atomic, Optical, and Plasma Physics, vol 68. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-25569-4_16
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