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Title: REBCO Insert Coils toward High-Field, Large-Bore Magnet for Quantum Physics Research

Journal Article · · IEEE Transactions on Applied Superconductivity
ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [2];  [1];  [1]; ORCiD logo [1]
  1. Princeton Plasma Physics Laboratory (PPPL), Princeton, NJ (United States)
  2. Seoul National Univ. (Korea, Republic of)
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High-temperature superconducting (HTS) magnets offer a promising solution for generating high magnetic fields efficiently and economically, serving as a vital component in nextgeneration scientific instruments and carbon-neutral power systems, notably in cost-effective compact fusion reactors. These high magnetic fields play a pivotal role in advancing research on quantum materials, particularly in elucidating the intricate electronic states near magnetic phase transitions. Here, this paper delves into the research conducted at the Princeton Plasma Physics Laboratory, which is divided into three phases aimed at overcoming technical hurdles in creating large-bore, high-field HTS magnets for cutting-edge quantum physics research. In Phase 1, we designed, constructed, and tested a compact REBCO solenoidal magnet comprising six double-pancake coils featuring a 41.3-mm inner diameter and a 70.0-mm outer diameter. It adopts a no-insulation approach to ensure electrical and thermal stability. Successful testing in a saturated liquid nitrogen bath confirmed its capability to generate a 0.8-T field at 77 K and 2 T at 65 K, with ongoing integration into liquid helium testing. Building on this experience, Phase 2 involves the design of an HTS insert coil, intended to nest within a 12-T low-temperature superconducting (LTS) outsert to achieve a minimum of 20 T at 4.2 K. The focus of Phase 2 centers on addressing challenges posed by screening-current (SC) effects, particularly the associated stress/strain issues. Employing a numerical model that fully couples the SC and mechanical analysis, we discuss strategies for managing stress to mitigate the effects of SCinduced stress concentrations.

Research Organization:
Princeton Plasma Physics Laboratory (PPPL), Princeton, NJ (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
AC02-09CH11466
OSTI ID:
2282124
Journal Information:
IEEE Transactions on Applied Superconductivity, Vol. 34, Issue 5; ISSN 1051-8223
Publisher:
IEEECopyright Statement
Country of Publication:
United States
Language:
English

References (23)

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Screening current rotation effects: SCIF and strain in REBCO magnets journal August 2021
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45.5-tesla direct-current magnetic field generated with a high-temperature superconducting magnet journal June 2019
The prospects of high-temperature superconductors journal June 2023
Magnetization and screening current in an 800 MHz (18.8 T) REBCO nuclear magnetic resonance insert magnet: experimental results and numerical analysis journal August 2019
Development of RE-Ba-Cu-O superconductors in the U.S. for ultra-high field magnets journal February 2022
A Cryogen-Free 25-T REBCO Magnet With the Extreme-No-Insulation Winding Technique journal September 2022
World record 32.35 tesla direct-current magnetic field generated with an all-superconducting magnet journal February 2020
Degradation Characteristics of a 20 T REBCO Insert Magnet After a 4.2 K Standalone Test journal August 2023
A Reel-to-Reel Scanning Hall Probe Microscope for Characterizing Long REBCO Conductor in Magnetic Fields Up to 5 Tesla journal June 2022
Progress of ultra-high-field superconducting magnets in China journal December 2021
Construction and test result of an all-REBCO conduction-cooled 23.5 T magnet prototype towards a benchtop 1 GHz NMR spectroscopy journal August 2022
High critical currents in heavily doped (Gd,Y)Ba2Cu3Ox superconductor tapes journal January 2015
Stress Reduction and Storage Capacity Enhancement of the HTS-SMES Using Reinforcing Overbanding Structure journal June 2017
Metal-as-insulation HTS coils journal May 2022
Screening current induced magnetic field and stress in ultra-high-field magnets using REBCO coated conductors journal December 2021
Design of a 20 T Class REBCO Insert in a 15 T Low Temperature Superconducting Magnet journal July 2021
Correlation of In-Field Performance of Thick REBCO Films Between 0–14 T and 4.2–77 K journal August 2019

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Related Subjects

75 CONDENSED MATTER PHYSICS
SUPERCONDUCTIVITY AND SUPERFLUIDITY
high-temperature superconductor
REBCO
insert magnet
liquid nitrogen
screening current
hoop strain