The RHIC magnet system

被引：61

作者：

Anerella, M ^{[1
]}

Cottingham, J ^{[1
]}

Cozzolino, J ^{[1
]}

Dahl, P ^{[1
]}

Elisman, Y ^{[1
]}

Escallier, J ^{[1
]}

Foelsche, H ^{[1
]}

Ganetis, G ^{[1
]}

Garber, M ^{[1
]}

Ghosh, A ^{[1
]}

Goodzeit, C ^{[1
]}

Greene, A ^{[1
]}

Gupta, R ^{[1
]}

Harrison, M ^{[1
]}

Herrera, J ^{[1
]}

Jain, A ^{[1
]}

Kahn, S ^{[1
]}

Kelly, E ^{[1
]}

Killian, E ^{[1
]}

Lindner, M ^{[1
]}

Louie, W ^{[1
]}

Marone, A ^{[1
]}

Morgan, G ^{[1
]}

Morgillo, A ^{[1
]}

Mulhall, S ^{[1
]}

Muratore, J ^{[1
]}

Plate, S ^{[1
]}

Prodell, A ^{[1
]}

Rehak, M ^{[1
]}

Rohrer, E ^{[1
]}

Sampson, W ^{[1
]}

Schmalzle, J ^{[1
]}

Schneider, W ^{[1
]}

Shutt, R ^{[1
]}

Sintchak, G ^{[1
]}

Skaritka, J ^{[1
]}

Thomas, R ^{[1
]}

Thompson, P ^{[1
]}

Wanderer, P ^{[1
]}

Willen, E ^{[1
]}

机构：

[1] Brookhaven Natl Lab, Upton, NY 11973 USA

来源：

NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT | 2003年 / 499卷 / 2-3期

关键词：

accelerator magnets; superconducting magnets; helical magnets; RHIC magnets; magnet field quality;

D O I：

10.1016/S0168-9002(02)01940-X

中图分类号：

TH7 [仪器、仪表];

学科分类号：

0804 ; 080401 ; 081102 ;

摘要：

The magnet system of the collider consists of superconducting dipole, quadrupole and correction magnets for guiding and focusing the beams through the regular arcs of the machine lattice as well as into collision at the six interaction points. It is designed to allow operation in the energy range 30-100 GeV/u. Operation with either equal or unequal ion species in the colliding beams is possible, imposing a ratio of up to 2.5:1 in the magnetic fields of the two rings. There are 1740 superconducting magnets in the machine. They were designed to meet stringent requirements on field quality, reproducibility, and long-term reliability while being inexpensive to produce. Wherever feasible, production of magnets and components was carried out in industry, always with build-to-print designs. After several years of operation, no magnet has failed and the magnet system has proven reliable and functional. (C) 2002 Elsevier Science B.V. All rights reserved.

引用

页码：280 / 315

页数：36

共 50 条

[41] The ITER magnet system
Mitchell, N.
Bessette, D.
Gallix, R.
Jong, C.
Knaster, J.
Libeyre, P.
Sborchia, C.
Simon, F.
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 2008, 18 (02) : 435 - 440
[42] The KATRIN magnet system
Gehring, R
Bonn, J
Bornschein, B
Flatt, B
Juengst, KP
Neumann, H
Osipowicz, A
Pitel, J
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 2004, 14 (02) : 589 - 591
[43] MX MAGNET SYSTEM
BULMER, RH
CALDERON, MO
CORNISH, DN
KOZMAN, TA
SACKETT, SJ
IEEE TRANSACTIONS ON MAGNETICS, 1977, 13 (01) : 700 - 703
[44] MAGNET SYSTEM FOR THE TARN
NODA, A
FUJINO, T
HATTORI, T
HORI, T
MUTOU, M
NAKANISHI, T
YOSHIZAWA, M
SASAKI, H
BULLETIN OF THE AMERICAN PHYSICAL SOCIETY, 1979, 24 (02): : 150 - 150
[45] The PANDA Magnet System
Bersani, Andrea
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 2012, 22 (03)
[46] Up-graded RHIC injection kicker system
Hahn, H
Fischer, W
Semertzidis, YK
Warburton, DS
PROCEEDINGS OF THE 2003 PARTICLE ACCELERATOR CONFERENCE, VOLS 1-5, 2003, : 1625 - 1627
[47] DAQ system with RACEway switch for PHOBOS experiment at RHIC
Kulinich, P
Sarin, P
Sukhanov, A
2001 IEEE NUCLEAR SCIENCE SYMPOSIUM, CONFERENCE RECORDS, VOLS 1-4, 2002, : 81 - 84
[48] NSLS MAGNET SYSTEM
GALAYDA, J
HEESE, RN
HSIEH, HCH
KAPFER, H
IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 1979, 26 (03) : 3919 - 3921
[49] A SAFETY SYSTEM FOR PERSONNEL AND EQUIPMENT PROTECTION AT THE AGS AND RHIC
ZITVOGEL, EP
IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 1995, 42 (04) : 967 - 971
[50] Centrality and system size dependence of φ meson production at RHIC
Bashir, Inam-Ul
Uddin, Saeed
EPL, 2017, 118 (04)

← 1 2 3 4 5 →