0000000000194564

AUTHOR

R. Stokstad

showing 2 related works from this author

Towards laser cooling of fast Be+ ions in the storage ring TSR

1989

Publisher Summary This chapter presents a clear understanding of laser-ion interactions under storage ring conditions to prepare the basis of laser cooling of fast-stored ion beams. In addition, the method of laser-induced fluorescence provides precise data for beam properties such as absolute velocity, momentum spread, and lifetime. 9Be+ ions stored in a heavy-ion storage ring are a promising species for laser cooling down to temperatures several orders of magnitude less than those reached for protons by electron cooling at the Novosibirsk ring. Short cooling times and microkelvin temperatures can be envisaged, where the structure of the ion beam is dominated by Coulomb repulsion. The chap…

Dye laserIon beamResolved sideband coolinglawChemistryLaser coolingLight beamPhysics::Atomic PhysicsAtomic physicsRing (chemistry)Storage ringElectron coolinglaw.invention
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First experiments with the heidelberg test storage ring TSR

1989

Abstract The Heidelberg heavy ion test storage ring TSR started operation in May 1988. The lifetimes of the ion beams observed in the first experiments can be explained by interactions with the residual gas. Multiple Coulomb scattering, single Coulomb scattering, electron capture and electron stripping are the relevant processes. Electron cooling of ions as heavy as O 8+ has been observed for the first time. With increasing particle number, the longitudinal Schottky noise spectrum becomes dominated by collective waves for cooled beams, allowing a determination of velocities of sound. After correcting for these coherent distortions fo the Schottky spectrum, the longitudinal beam temperature …

Nuclear and High Energy PhysicsBeam diameterChemistryElectronlaw.inventionIonIntrabeam scatteringlawLaser coolingPhysics::Accelerator PhysicsAtomic physicsInstrumentationStorage ringBeam (structure)Electron coolingNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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