The Effect of Field-Dependent In-Value on Screening Current, Voltage, and Magnetic Field of REBCO Coil

Jeseok Bang; Kwangmin Kim; Griffin Bradford; Jonathan Lee; Dmytro Abraimov; Mato Takanobu; So Noguchi; Seungyong Hahn; David Larbalestier

doi:10.1109/TASC.2024.3357472

The Effect of Field-Dependent In-Value on Screening Current, Voltage, and Magnetic Field of REBCO Coil

Jeseok Bang
, Kwangmin Kim
, Griffin Bradford
, Jonathan Lee
, Dmytro Abraimov
, Mato Takanobu
, So Noguchi
, Seungyong Hahn
, David Larbalestier

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

8 Scopus citations

Abstract

Here we report the effect of field-dependent index value n(B,\theta) on screening current and consequential NI REBCO coil behavior. Through the 'Little Big Coil (LBC)' framework, an unexpected voltage behavior has been observed at the top and bottom coils in the fourth mini magnet LBC4 during the self-field operation at 77 K. The measurement demonstrates that the top/bottom coil voltage is temporarily decreased and then increased. However, this anomaly cannot be reproduced if the conventional simulation model uses the power-law E\!-\!J model with a constant n-value. Hence, we have revisited a property of the REBCO-coated conductor and, as a result, found that the field dependency of n is necessary to elucidate the behavior. This paper will provide the 77 K self-field operation results, e.g., module coil voltages and the central magnetic field. A numerical simulation considering the field dependency investigates unexpected coil voltage behavior. The comparison between simulation results if the dependency is included and if not will be discussed.

Original language	English (US)
Article number	4902105
Pages (from-to)	1-5
Number of pages	5
Journal	IEEE Transactions on Applied Superconductivity
Volume	34
Issue number	5
DOIs	https://doi.org/10.1109/TASC.2024.3357472
State	Published - Aug 1 2024
Externally published	Yes

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

Keywords

Coil modeling
REBCO-coated conductor
field dependency
magnetic field hysteresis
screening current

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10.1109/TASC.2024.3357472

Cite this

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title = "The Effect of Field-Dependent In-Value on Screening Current, Voltage, and Magnetic Field of REBCO Coil",

abstract = "Here we report the effect of field-dependent index value n(B,\textbackslash{}theta) on screening current and consequential NI REBCO coil behavior. Through the 'Little Big Coil (LBC)' framework, an unexpected voltage behavior has been observed at the top and bottom coils in the fourth mini magnet LBC4 during the self-field operation at 77 K. The measurement demonstrates that the top/bottom coil voltage is temporarily decreased and then increased. However, this anomaly cannot be reproduced if the conventional simulation model uses the power-law E\textbackslash{}!-\textbackslash{}!J model with a constant n-value. Hence, we have revisited a property of the REBCO-coated conductor and, as a result, found that the field dependency of n is necessary to elucidate the behavior. This paper will provide the 77 K self-field operation results, e.g., module coil voltages and the central magnetic field. A numerical simulation considering the field dependency investigates unexpected coil voltage behavior. The comparison between simulation results if the dependency is included and if not will be discussed.",

keywords = "Coil modeling, REBCO-coated conductor, field dependency, magnetic field hysteresis, screening current",

author = "Jeseok Bang and Kwangmin Kim and Griffin Bradford and Jonathan Lee and Dmytro Abraimov and Mato Takanobu and So Noguchi and Seungyong Hahn and David Larbalestier",

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AU - Bang, Jeseok

AU - Kim, Kwangmin

AU - Bradford, Griffin

AU - Lee, Jonathan

AU - Abraimov, Dmytro

AU - Takanobu, Mato

AU - Noguchi, So

AU - Hahn, Seungyong

AU - Larbalestier, David

PY - 2024/8/1

Y1 - 2024/8/1

N2 - Here we report the effect of field-dependent index value n(B,\theta) on screening current and consequential NI REBCO coil behavior. Through the 'Little Big Coil (LBC)' framework, an unexpected voltage behavior has been observed at the top and bottom coils in the fourth mini magnet LBC4 during the self-field operation at 77 K. The measurement demonstrates that the top/bottom coil voltage is temporarily decreased and then increased. However, this anomaly cannot be reproduced if the conventional simulation model uses the power-law E\!-\!J model with a constant n-value. Hence, we have revisited a property of the REBCO-coated conductor and, as a result, found that the field dependency of n is necessary to elucidate the behavior. This paper will provide the 77 K self-field operation results, e.g., module coil voltages and the central magnetic field. A numerical simulation considering the field dependency investigates unexpected coil voltage behavior. The comparison between simulation results if the dependency is included and if not will be discussed.

AB - Here we report the effect of field-dependent index value n(B,\theta) on screening current and consequential NI REBCO coil behavior. Through the 'Little Big Coil (LBC)' framework, an unexpected voltage behavior has been observed at the top and bottom coils in the fourth mini magnet LBC4 during the self-field operation at 77 K. The measurement demonstrates that the top/bottom coil voltage is temporarily decreased and then increased. However, this anomaly cannot be reproduced if the conventional simulation model uses the power-law E\!-\!J model with a constant n-value. Hence, we have revisited a property of the REBCO-coated conductor and, as a result, found that the field dependency of n is necessary to elucidate the behavior. This paper will provide the 77 K self-field operation results, e.g., module coil voltages and the central magnetic field. A numerical simulation considering the field dependency investigates unexpected coil voltage behavior. The comparison between simulation results if the dependency is included and if not will be discussed.

KW - Coil modeling

KW - REBCO-coated conductor

KW - field dependency

KW - magnetic field hysteresis

KW - screening current

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The Effect of Field-Dependent In-Value on Screening Current, Voltage, and Magnetic Field of REBCO Coil

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