Hartmut Kugler scite author profile

This paper describes the first results of a feasibility study undertaken at CERN to determine whether a laser-produced plasma can be used as a source of intense highly charged heavy ion beams. A variety of important measurements have been made, and the results are encouraging. Furthermore, a beam of highly charged light ions produced by the laser ion source has been accelerated successfully in a radio frequency quadrupole (RFQ) structure.

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Ion production by lasers using high–power densities in a near infrared region

Rohlena

Králíková

Krása

et al. 1996

Laser Part. Beams

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Results are presented of experiments on ion production from Ta targets using a short pulse (350-600 ps in focus) illumination with focal power densities exceeding 10 14 Wcm~2 at the wavelength of an iodine photodissociation laser (1.315 nm) and its harmonics. Strong evidence of the existence of tantalum ions with the charge state +45 near the target surface was obtained by X-ray spectroscopy methods. The particle diagnostics point to the existence of frozen high charge states (<53 + ) of Ta ions in the far expansion zone at about 2 m from the target. The measured charge state-ion energy distribution indicates the highest energy (>4 MeV) for the highest observed charge states. A tentative theoretical explanation of the observed anomalous charge state freezing phenomenon in the expanding plasma produced by a subnanosecond laser pulse is given.

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Laser ion source for heavy ion synchrotrons (invited)

Sharkov

Kondrashev

Roudskoy

et al. 1998

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A status overview of the development of laser ion sources suited to heavy ion synchrotrons is presented. The results of experimental and theoretical studies, recently obtained at a number of laboratories, for laser-produced highly charged heavy ions are summarized for plasmas heated by long wavelength lasers. Design of a powerful repetition rate CO2 laser, target interaction chamber, and extraction system suited for reliable long term operation mode with real accelerators is discussed. Requirements for the final performance of the laser ion sources for ion beam injectors at the ITEP-Moscow and CERN accelerator facilities are given.

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Developments at the CERN laser ion source

Haseroth

Kugler

Langbein

et al. 1998

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Articles you may be interested inPhysics research and technology developments of electron string ion sourcesa) Rev. Sci. Instrum. 83, 02A512 (2012); 10.1063/1.3678660 H − source developments at CERN Rev. Sci. Instrum. 77, 03A521 (2006);The high current, high charge-state ion beam which can be extracted from a laser produced plasma is well suited, after initial acceleration, for injection into synchrotrons. At CERN, the production of a heavy ion beam using a CO 2 laser ion source is studied. The latest results of experiments with a tantalum ion beam with charge states up to 23ϩ and accelerated by a radio frequency quadrupole from 6.9 to 100 keV/u, are presented along with simulations of the low energy beam transport. The ion yield at the desired charge state, the pulse to pulse stability of the ion beam, and the system reliability are all of major interest. Work is under way to replace the low repetition rate free-running laser oscillator by a master oscillator and power amplifier system. The master oscillator is operational and the first results of measurements of its beam quality and stability are presented.

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Hartmut Kugler

Decay characteristics of short-lived radio-nuclides studied by on-line isotope separator techniques

The CERN laser–ion source

Ion production by lasers using high–power densities in a near infrared region

Laser ion source for heavy ion synchrotrons (invited)

Developments at the CERN laser ion source

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