Louise Olivia Jorat scite author profile

Louise Olivia Jorat

5Publications

13Citation Statements Received

16Citation Statements Given

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Affiliations

European Organization for Nuclear Research

Publications

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Reduction of 400 GeV/c slow extraction beam loss with a wire diffuser at the CERN Super Proton Synchrotron

Goddard

Balhan

Borburgh

et al. 2020

Phys. Rev. Accel. Beams

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Slow extraction of a quasicontinuous flux of high-energy protons is an important requirement for many high-energy physics experiments. This extraction type is associated with an unavoidable beam loss due to scattering on the thin septum element. The energy deposition of scattering products and resulting activation place performance limits on existing and planned high-power, high-energy fixed-target proton facilities. In the 400 GeV=c Super Proton Synchrotron (SPS) at CERN, a diffuser (or prescatterer), comprising an array of dense wires or ribbon located upstream of the electrostatic septum, has been designed to reduce absolute losses on the septum wires. As part of a concerted effort to investigate loss reduction techniques in the SPS in view of new physics experiments, the diffuser concept was explored in numerical simulation and analytically. A prototype device has been designed, built, installed, and tested in the SPS to prove the feasibility and quantify the performance reach. In this paper, the diffuser concept is briefly recalled and design considerations for the SPS use case are presented, with the analytical considerations and simulation studies for the optimization of the material and geometry. The device design is described, and the experimental results with a beam are presented and analyzed. The results are discussed, and an outlook is given for the operational feasibility and maximum obtainable performance gain. Conclusions are drawn on the implications for the application of the concept.

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First experience with carbon stripping foils for the 160 MeV H− injection into the CERN PSB

Weterings

Bracco

Jorat

et al. 2018

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160 MeV H − beam will be delivered from the new CERN linear accelerator (Linac4) to the Proton Synchrotron Booster (PSB), using a H − charge-exchange injection system. A 200 µg/cm 2 carbon stripping foil will convert H − into protons by stripping off the electrons. The H − charge-exchange injection principle will be used for the first time in the CERN accelerator complex and involves many challenges. In order to gain experience with the foil changing mechanism and the very fragile foils, in 2016, prior to the installation in the PSB, a stripping foil test stand has been installed in the Linac4 transfer line. In addition, parts of the future PSB injection equipment are also temporarily installed in the Linac4 transfer line for tests with a 160 MeV H − commissioning proton beam. This paper describes the foil changing mechanism and control system, summarizes the practical experience of gluing and handling these foils and reports on the first results with beam.

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Challenges for the Electric Field Devices for a CERN Proton EDM Storage Ring

Borburgh

Atanasov

Goddard

et al. 2018

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Experimental Results of Low-Z Materials as a High Voltage Septum Anode

Borburgh

Balhan

Goddard

et al. 2021

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Commissioning and Results of the Half-Sector Test Installation with 160 MeV H⁻ beam from Linac4

Mikulec¹,

Aguglia²,

Santamaria³

et al. 2017

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