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A LINEAR RFQ TRAP FOR COOLING AND BUNCHING OF RADIOACTIVE ION BEAMS

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Presentation on theme: "A LINEAR RFQ TRAP FOR COOLING AND BUNCHING OF RADIOACTIVE ION BEAMS"— Presentation transcript:

1 A LINEAR RFQ TRAP FOR COOLING AND BUNCHING OF RADIOACTIVE ION BEAMS
Ari Jokinen University of Jyväskylä CERN / PS-division Introduction RFQ Buffer gas cooling JYFL ion cooler and buncher

2 WHY BEAM COOLING ? dx q dq x cooling
Emittance: characteristic property of an ion beam for a given number of ions, want minimum beam size, divergence and energy spread (hence, small emittance) Ion beam geometry Phase space diagram dx q dq x Liouville’s theorem: area of dx by dq is constant small divergence - large beam small beam spot - large divergence therefore to reduce emittance we need a dissipative environment: cooling

3 COOLING TECHNIQUES Storage rings: stochastic cooling electron cooling
laser cooling Ion traps: resistive cooling evaporative cooling laser cooling buffer gas cooling (fast, universal -> optimal technique for RIB)

4 BUFFER GAS COOLING Two initial energy regions:
A. Elastic collisions, Eion >> Egas collision rate energy loss in single collision B. Viscous damping, Eion » Egas Origin: long-range interaction between incoming ion and polarized buffer gas atoms -> viscous drag Ions are damped to zero (in the model) In reality: RF-heating, thermal movement, ...

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