Yu. V. Korotaev scite author profile

The project of the Low Energy Positron Toroidal Accumulator (LEPTA) is under development at JINR. The LEPTA facility is a small positron storage ring equipped with the electron cooling system. The project positron energy is of 4-10 keV. The main goal of the facility is to generate an intense flux of positronium atoms-the bound state of electron and positron. The focusing system of the LEPTA ring after solenoidal magnetic field remeasurement and correction has been tested with pulsed electron beam by elements. Some resonant effects of beam focusing have been observed. Storage ring of LEPTA facility was commissioned in September 2004. Since then the ring was equipped with additional beam diagnostics. The magnetic field quality in the ring was improved. Results of testing the storage ring with electron beam after the upgrade are presented. The experiments aiming to increase the life time of the circulating electron beam and test the electron cooling elector beam are in progress.

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Electron Cooling of Intense Ion Beam

Dietrich¹,

Kamerdjiev²,

Korotaev³

et al. 2006

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Physical Startup of the LEPTA Accumulator

et al. 2005

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The LEPTA setup (Low Energy Particle Torroidal Accumulator) is being constructed at the Joint Institute of Nuclear Research. The main purpose of this setup is to generate intense fluxes of positronium ions and perform experiments in positronium physics. The main component of the setup is the low-energy positron accumulator with a electronic cooling system. A special feature of the accumulator is that it uses a longitudinal magnetic field to focus a circulating beam. The physical startup of the accumulator was performed in September 2004. The results of the adjustment of the main components of the accumulator, the method for obtaining a circulating beam, and the first results of measurements of its parameters are presented.The LEPTA setup (Low Energy Particle Toroidal Accumulator), whose purpose is to generate intense fluxes of positronium ions and performing experimental research on positronium, is under construction at the Joint Institute of Nuclear Research [1-4] (Fig. 1). It consists of a positron injector, an accumulator and system for detecting the positron flux. The injector includes a β + -emitting source based on 22 Na and a Penning-type trap for preliminary accumulation of positrons and subsequently injecting them, in one revolution, into the accumulator. A low-activity test source of positrons for adjusting the setup has been fabricated; its parameters are being measured.The key component of the setup is the accumulator with a 17.2 m perimeter. The purpose of the accumulator is to accumulate ~10 keV positrons and to cool them electronically. The positronium atoms are formed when electrons and positrons recombine in the cooling section. The principle of operation and the construction of the main components of the accumulator were proposed in [2], where a similar accumulator was proposed for generating atoms of antihydrogen. As a result of the low positron energy, it was proposed at the circulating beam be focused by a longitudinal magnetic field in combination with an additional spiral quadrapole field. Such a field geometry is characteristic for a modified betatron and its modifications -the stomatron [5]. But, in contrast to the stomatrons, developed and studied in the USA [6,7], the structure of the LEPTA accumulator does not possess azimuthal symmetry, and the spiral quadrapole field is present only on a short part of the orbit in the rectilinear section. In addition, in [2] an innovative injection scheme was proposed, making it possible to solve the main problem of stomatrons -introducing the beam into a longitudinal magnetic field without substantial perturbation of the beam parameters.The physical startup of the accumulator with circulating electron beam was conducted in September 2004. The main components of the accumulator were tested beforehand with a pulsed electron beam. In the present paper, the methods used to adjust the components of the accumulator and to obtain a circulating beam are presented.

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Experimental studies of electron beam neutralisation

Bosser

Ley

Korotaev

et al. 1997

Nuclear Instruments and Methods in Physics Research Section A:

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Yu. V. Korotaev

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Status of the LEPTA Project

Electron Cooling of Intense Ion Beam

Physical Startup of the LEPTA Accumulator

Experimental studies of electron beam neutralisation

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