Optimization of a large aperture dipole magnet for baryonic matter   studies at Nuclotron

P.G.Akishin; A.Yu.Isupov; A.N.Khrenov; P.K.Kurilkin; V.P.Ladygin,; S.M.Piyadin; N.D.Topilin

arXiv:1407.7096·physics.ins-det·June 22, 2015

Optimization of a large aperture dipole magnet for baryonic matter studies at Nuclotron

P.G.Akishin, A.Yu.Isupov, A.N.Khrenov, P.K.Kurilkin, V.P.Ladygin,, S.M.Piyadin, N.D.Topilin

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TL;DR

This paper discusses the enhancement of the SP41 dipole magnet's aperture and field homogeneity at Nuclotron to improve baryonic matter research, supported by experimental measurements and 3D simulations.

Contribution

It presents the design modifications and validation of the enlarged aperture and improved field homogeneity of the SP41 magnet for baryonic matter studies.

Findings

01

A larger aperture was successfully implemented.

02

Magnetic field homogeneity was improved.

03

Measurement results align with 3D TOSCA calculations.

Abstract

The aperture of the dipole magnet SP41 has been enlarged for the studies of dense baryonic matter properties at Nuclotron. The homogeneity of the magnetic field in the magnet centre has been improved. The measurement results of the magnetic field components and integral are compared with results of 3D TOSCA calculations.

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