Study of multicharged heavy ion generation from CO2 laser-produced plasma

V.Yu. Baranov; K.N. Makarov; V.C. Roerich; Yu.A. Satov; A.N. Starostin; A.E. Stepanov; B.Yu. Sharkov; V.Yu. Baranov; K.N. Makarov; V.C. Roerich; Yu.A. Satov; A.N. Starostin; A.E. Stepanov; K. Langbein; T.R. Sherwood

doi:10.1017/S0263034600010089

Abstract

The results of lead ion generation with charge state from Pb10+ to Pb35+ from laser-heated plasma are presented. CO2 lasers producing 10.6-μm wavelength radiation at power densities in the range 4.1011-6.1014 W/cm2 in TBKI and CERN were used. Results of detailed numerical simulations presented in the paper are in good agreement with the experimental data. Work done in collaboration with CERN, ITEP, and TBKI was aimed at the specification of requirements for a laser system that will be able to drive an ion source for the hadron collider (LHC) at CERN.

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Study of multicharged heavy ion generation from CO2 laser-produced plasma

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Study of multicharged heavy ion generation from CO2 laser-produced plasma

Abstract

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References

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