Test results of the g-2 superconducting solenoid magnet system

G Bunce; WM Morse; J Benante; MH Cullen; GT Danby; K Endo; GV Fedotovich; J Geller; MA Green; A Grossmann; M GrossePerdckamp; U Haeberlen; H Hseuh; H Hirabayashi; VW Hughes; JW Jackson; LX Jia; K Jungmann; F Krienen; R Larsen; B Khazin; D Kawall; W Meng; C Pai; T. Polk; R Prigl; GZ Putlitz; S Redin; BL Roberts; N Ryskulov; Y Semertzidas; R Shutt; L Snydstrup; T Tallerico; P vonWalter; K Woodle; A Yamamoto

Test results of the g-2 superconducting solenoid magnet system

G Bunce^*
, WM Morse
, J Benante
, MH Cullen
, GT Danby
, K Endo
, GV Fedotovich
, J Geller
, MA Green
, A Grossmann
, M GrossePerdckamp
, U Haeberlen
, H Hseuh
, H Hirabayashi
, VW Hughes
, JW Jackson
, LX Jia
, K Jungmann
, F Krienen
, R Larsen

B Khazin, D Kawall, W Meng, C Pai, T. Polk, R Prigl, GZ Putlitz, S Redin, BL Roberts, N Ryskulov, Y Semertzidas, R Shutt, L Snydstrup, T Tallerico, P vonWalter, K Woodle, A Yamamoto

^*Corresponding author for this work

Precision Frontier

Research output: Contribution to journal › Article › Academic › peer-review

3 Citations (Scopus)

Abstract

The g-2 experiment dipole consists of a single 48 turn, 15.1 meter diameter outer solenoid and a pair of 24 turn inner solenoids, 13.4 meters in diameter. The inner solenoids are hooked in series and are run at a polarity that is opposite that of the outer solenoid, thus creating a dipole field in the space between the inner and outer solenoids, The dipole flux is returned by a C shaped continuous iron. The superconducting solenoid coils are closely coupled to the solenoid mandrels and as such are subject to quench back. This report presents the results of various tests on the g-2 magnet system operating within its iron return yoke. These tests include quench back time constant measurements for the inner and outer solenoids and measurements of the response of the two-phase forced cooled helium cryogenic system to magnet quenches. The overall effectivness of the g-2 magnet quench protection system was measured.

Original language	English
Pages (from-to)	626-629
Number of pages	4
Journal	IEEE Transactions on Applied Superconductivity
Volume	7
Issue number	2
Publication status	Published - Jun-1997
Event	1996 Applied Superconductivity Conference - Pittsburgh, United States Duration: 25-Aug-1996 → 30-Aug-1996

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Bunce, G., Morse, WM., Benante, J., Cullen, MH., Danby, GT., Endo, K., Fedotovich, GV., Geller, J., Green, MA., Grossmann, A., GrossePerdckamp, M., Haeberlen, U., Hseuh, H., Hirabayashi, H., Hughes, VW., Jackson, JW., Jia, LX., Jungmann, K., Krienen, F., ... Yamamoto, A. (1997). Test results of the g-2 superconducting solenoid magnet system. IEEE Transactions on Applied Superconductivity, 7(2), 626-629.

@article{e0dd6278120148cf8f1ae5721ca271ed,

title = "Test results of the g-2 superconducting solenoid magnet system",

abstract = "The g-2 experiment dipole consists of a single 48 turn, 15.1 meter diameter outer solenoid and a pair of 24 turn inner solenoids, 13.4 meters in diameter. The inner solenoids are hooked in series and are run at a polarity that is opposite that of the outer solenoid, thus creating a dipole field in the space between the inner and outer solenoids, The dipole flux is returned by a C shaped continuous iron. The superconducting solenoid coils are closely coupled to the solenoid mandrels and as such are subject to quench back. This report presents the results of various tests on the g-2 magnet system operating within its iron return yoke. These tests include quench back time constant measurements for the inner and outer solenoids and measurements of the response of the two-phase forced cooled helium cryogenic system to magnet quenches. The overall effectivness of the g-2 magnet quench protection system was measured.",

author = "G Bunce and WM Morse and J Benante and MH Cullen and GT Danby and K Endo and GV Fedotovich and J Geller and MA Green and A Grossmann and M GrossePerdckamp and U Haeberlen and H Hseuh and H Hirabayashi and VW Hughes and JW Jackson and LX Jia and K Jungmann and F Krienen and R Larsen and B Khazin and D Kawall and W Meng and C Pai and T. Polk and R Prigl and GZ Putlitz and S Redin and BL Roberts and N Ryskulov and Y Semertzidas and R Shutt and L Snydstrup and T Tallerico and P vonWalter and K Woodle and A Yamamoto",

year = "1997",

month = jun,

language = "English",

volume = "7",

pages = "626--629",

journal = "IEEE Transactions on Applied Superconductivity",

issn = "1051-8223",

publisher = "IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC",

number = "2",

note = "1996 Applied Superconductivity Conference ; Conference date: 25-08-1996 Through 30-08-1996",

}

Bunce, G, Morse, WM, Benante, J, Cullen, MH, Danby, GT, Endo, K, Fedotovich, GV, Geller, J, Green, MA, Grossmann, A, GrossePerdckamp, M, Haeberlen, U, Hseuh, H, Hirabayashi, H, Hughes, VW, Jackson, JW, Jia, LX, Jungmann, K, Krienen, F, Larsen, R, Khazin, B, Kawall, D, Meng, W, Pai, C, Polk, T, Prigl, R, Putlitz, GZ, Redin, S, Roberts, BL, Ryskulov, N, Semertzidas, Y, Shutt, R, Snydstrup, L, Tallerico, T, vonWalter, P, Woodle, K & Yamamoto, A 1997, 'Test results of the g-2 superconducting solenoid magnet system', IEEE Transactions on Applied Superconductivity, vol. 7, no. 2, pp. 626-629.

TY - JOUR

T1 - Test results of the g-2 superconducting solenoid magnet system

AU - Bunce, G

AU - Morse, WM

AU - Benante, J

AU - Cullen, MH

AU - Danby, GT

AU - Endo, K

AU - Fedotovich, GV

AU - Geller, J

AU - Green, MA

AU - Grossmann, A

AU - GrossePerdckamp, M

AU - Haeberlen, U

AU - Hseuh, H

AU - Hirabayashi, H

AU - Hughes, VW

AU - Jackson, JW

AU - Jia, LX

AU - Jungmann, K

AU - Krienen, F

AU - Larsen, R

AU - Khazin, B

AU - Kawall, D

AU - Meng, W

AU - Pai, C

AU - Polk, T.

AU - Prigl, R

AU - Putlitz, GZ

AU - Redin, S

AU - Roberts, BL

AU - Ryskulov, N

AU - Semertzidas, Y

AU - Shutt, R

AU - Snydstrup, L

AU - Tallerico, T

AU - vonWalter, P

AU - Woodle, K

AU - Yamamoto, A

PY - 1997/6

Y1 - 1997/6

N2 - The g-2 experiment dipole consists of a single 48 turn, 15.1 meter diameter outer solenoid and a pair of 24 turn inner solenoids, 13.4 meters in diameter. The inner solenoids are hooked in series and are run at a polarity that is opposite that of the outer solenoid, thus creating a dipole field in the space between the inner and outer solenoids, The dipole flux is returned by a C shaped continuous iron. The superconducting solenoid coils are closely coupled to the solenoid mandrels and as such are subject to quench back. This report presents the results of various tests on the g-2 magnet system operating within its iron return yoke. These tests include quench back time constant measurements for the inner and outer solenoids and measurements of the response of the two-phase forced cooled helium cryogenic system to magnet quenches. The overall effectivness of the g-2 magnet quench protection system was measured.

AB - The g-2 experiment dipole consists of a single 48 turn, 15.1 meter diameter outer solenoid and a pair of 24 turn inner solenoids, 13.4 meters in diameter. The inner solenoids are hooked in series and are run at a polarity that is opposite that of the outer solenoid, thus creating a dipole field in the space between the inner and outer solenoids, The dipole flux is returned by a C shaped continuous iron. The superconducting solenoid coils are closely coupled to the solenoid mandrels and as such are subject to quench back. This report presents the results of various tests on the g-2 magnet system operating within its iron return yoke. These tests include quench back time constant measurements for the inner and outer solenoids and measurements of the response of the two-phase forced cooled helium cryogenic system to magnet quenches. The overall effectivness of the g-2 magnet quench protection system was measured.

M3 - Article

SN - 1051-8223

VL - 7

SP - 626

EP - 629

JO - IEEE Transactions on Applied Superconductivity

JF - IEEE Transactions on Applied Superconductivity

IS - 2

T2 - 1996 Applied Superconductivity Conference

Y2 - 25 August 1996 through 30 August 1996

ER -

Test results of the g-2 superconducting solenoid magnet system

Abstract

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