Increasing the rate capability for the cryogenic stopping cell of the   FRS Ion Catcher

J.W. Zhao; D. Amanbayev; T. Dickel; I. Miskun; W. R. Plass; N.; Tortorelli; S. Ayet San Andres; Soenke Beck; J. Bergmann; Z. Brencic; P.; Constantin; H. Geissel; F. Greiner; L. Groef; C. Hornung; N. Kuzminzuk; G.; Kripko-Koncz; I. Mardor; I. Pohjalainen; C. Scheidenberger; P. G. Thirolf; S.; Bagchi; E. Haettner; E. Kazantseva; D. Kostyleva; A. Oberstedt; S. Pietri; M.; P. Reiter; Y. K. Tanaka; M. Wada; D. L. Balabanski; D. Benyaming; M. N.; Harakeh; N. Hubbard; N. Kalantar-Nayestanaki; A. Mollaebrahimi; I. Mukhab; M.; Narang; T. Niwasel; Z. Patyk; S. Purushothaman; A. Rotaru; A. Spataruf; G.; Stanico; M. Vencelje; H. Weickb; J. Yu; the Super-FRS Experiment; Collaboration

arXiv:2308.02224·physics.ins-det·August 7, 2023

Increasing the rate capability for the cryogenic stopping cell of the FRS Ion Catcher

J.W. Zhao, D. Amanbayev, T. Dickel, I. Miskun, W. R. Plass, N., Tortorelli, S. Ayet San Andres, Soenke Beck, J. Bergmann, Z. Brencic, P., Constantin, H. Geissel, F. Greiner, L. Groef, C. Hornung, N. Kuzminzuk, G., Kripko-Koncz, I. Mardor, I. Pohjalainen, C. Scheidenberger

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TL;DR

This study demonstrates a significant increase in the rate capability of the cryogenic stopping cell at the FRS Ion Catcher, enabling higher beam intensities and advancing exotic nuclei research.

Contribution

Introduction of a short DC electrode design that enhances the extraction rate capability of the cryogenic stopping cell by an order of magnitude.

Findings

01

No efficiency loss up to 2x10^5 ions/s with the new design

02

Validation of the CSC design for higher intensity beams

03

Potential for new exotic nuclei experiments

Abstract

At the FRS Ion Catcher (FRS-IC), projectile and fission fragments are produced at relativistic energies, separated in-flight, energy-bunched, slowed down, and thermalized in the ultra-pure helium gas-filled cryogenic stopping cell (CSC). Thermalized nuclei are extracted from the CSC using a combination of DC and RF electric fields and gas flow. This CSC also serves as the prototype CSC for the Super-FRS, where exotic nuclei will be produced at unprecedented rates making it possible to go towards the extremes of the nuclear chart. Therefore, it is essential to efficiently extract thermalized exotic nuclei from the CSC under high beam rate conditions, in order to use the rare exotic nuclei which come as cocktail beams. The extraction efficiency dependence on the intensity of the impinging beam into the CSC was studied with a primary beam of 238U and its fragments. Tests were done with two…

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Taxonomy

TopicsAtomic and Molecular Physics · Nuclear physics research studies · Particle accelerators and beam dynamics