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Design of racetrack coils for high-field dipole magnets

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G. Sabbi; S. Caspi; S.A. Gourlay; R. Hafalia; A. Jackson; A. Lietzke
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Abstract:

The magnet group at LBNL is in the process of developing high-field accelerator magnets for use in future colliders. One of the primary challenges is to provide a design ...Show More

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Abstract:

The magnet group at LBNL is in the process of developing high-field accelerator magnets for use in future colliders. One of the primary challenges is to provide a design which is cost-effective and simple to manufacture, at the same time resulting in good training performance and field quality adequate for accelerator operation. Studies have focused on a racetrack geometry that has the virtues of simplicity and conductor compatibility. The results have been applied to the design of a series of prototype high-field magnets based on Nb/sub 3/Sn conductor.
Published in: IEEE Transactions on Applied Superconductivity ( Volume: 11, Issue: 1, March 2001)
Page(s): 2280 - 2283
Date of Publication: 31 March 2001

ISSN Information:

DOI: 10.1109/77.920315
References is not available for this document.
Contents

I. Introduction

A program to develop high-field accelerator magnets for future colliders is underway at several U.S. laborato-ries. After completion of the 13.5 dipole D-20 [1], the LBNL magnet group has started to investigate the “common coil” configuration for two-aperture dipoles, using racetrack coils shared between both magnet apertures [2], [3]. The first test involved a 6 T short model (RD-2) built using ITER-type Nb3 Sn conductor. The magnet reached short sample field with no training in a variety of pre-load configurations [4]. The following magnet in this series (RD-3) uses high-performance Nb3 Sn conductor with critical current density above 2 kA/mm2 at 12 T, 4.2 K, and is designed to reach 14 T [5]. The coil structure is composed of two outer modules and one inner module. The two outer modules have been pre-tested in back-to-back configuration (RT-l) and have achieved a field of 12 T [6]. The complete structure is now assembled and testing is underway.

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1.
A.D. McInturff, " Test Results for a High Field (13 T) {rm Nb_3Sn} Dipole ", 1997 Particle Accelerator Conf., 1997-May.
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2.
R. Gupta, "A Common Coil design for High-Field 2-in-1 Accelerator Magnets", 1997 Particle Accelerator Conference, 1997-May.
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3.
R. Gupta, "Field Quality Optimization in a Common Coil Magnet Design", IEEE Trans. Appl. Supercond., vol. 10, no. 1, pp. 326-329, March 2000.
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4.
S. A. Gourlay, " Fabrication and Test Results of a Prototype {rm Nb_3Sn} Superconducting Racetrack Dipole Magnet ", 1999 Particle Accelerator Conf., 1999-March.
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5.
K. Chow, "Mechanical Design of a High Field Common Coil Magnet", 1999 Particle Accelerator Conf., 1999-March.
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6.
A. Lietzke, "Racetrack Coil Technology Validation (RT-1) Test Results", Proceedings of the 2nd VLHC Magnet Workshop, 2000-May, [online] Available: .
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7.
S. Caspi, The Use of Pressurized Bladders for Stress Control of Superconducting Magnets.
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8.
G. Sabbi, "Fermilab Common Coil Magnet Development", Proceedings of the 2nd VLHC Magnet Workshop, 2000-May, [online] Available: .
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9.
G. Sabbi, "Conceptual Design of a Common Coil Dipole for VLHC", IEEE Trans. Appl. Supercond., vol. 10, no. 1, pp. 330-333, March 2000.
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10.
S. Caspi, "Reduction of Magnetization Induced Harmonics in Superconducting Magnets", LBNL SC-MAG-691, October 1999.
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R. Scanlan, {rm Nb_3Sn} Conductor Development for High Energy Physics Plans and Status .
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S. Russenschuck, "Integrated Design of Superconducting Accelerator Magnets - a Case Study of the Main Quadrupole", The European Physical Journal (Applied Physics), pp. 93-102, January 1998.
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G. Dugan, " Very Large Hadron Collider R> 1999 Particle Accelerator Conference 1999 Particle Accelerator Conference New York 1999-April 6408 17128 795621 ".
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