Operation of a 400 MHz NMR magnet using a (RE:Rare Earth)Ba2Cu3O7− high-temperature superconducting coil: Towards an ultra-compact super-high field NMR spectrometer operated beyond 1 GHz

Yanagisawa, Yoshinori; Piao, Rui‐Qi; Iguchi, Seiya; Nakagome, Hideki; Takao, T.; Kominato, Kentaro; Hamada, Mamoru; Matsumoto, Shinji; Suematsu, H.; Jin, Xinzhe; Takahashi, Masato; Yamazaki, Toshio; Maeda, Hideaki

doi:10.1016/j.jmr.2014.10.006

Cited by 64 publications

(72 citation statements)

References 37 publications

(72 reference statements)

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“…However, 1–1.1 GHz is believed to be the upper limit for magnets produced with only LTS materials due to limitations such as current density and temperature (1). Recent advancements have focused on the development of dual LTS/HTS (high temperature superconducting) magnets (1, 3, 10–13) wherein the inner HTS coil(s) are surrounded by outer LTS coil(s) (Figure 1). The development of HTS materials (14), such as Rare Earth BaCo oxides (REBCO, e.g.…”

Section: Perspectivementioning

confidence: 99%

NMR of Macromolecular Assemblies and Machines at 1 GHz and Beyond: New Transformative Opportunities for Molecular Structural Biology

Quinn

Wang

Polenova

2017

Methods in Molecular Biology

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Section: Perspectivementioning

confidence: 99%

NMR of Macromolecular Assemblies and Machines at 1 GHz and Beyond: New Transformative Opportunities for Molecular Structural Biology

Quinn

Wang

Polenova

2017

Methods in Molecular Biology

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“…The homogeneity of the magnetic field was sequentially adjusted by SC, ferromagnetic shims [16] and RT shims, based on the magnetic field data collected along a spiral locus. As some error components were extremely large, it was improbable to achieve sufficient magnetic field homogeneity without using ferromagnetic shims.…”

Section: Magnetic Field Drift and Spatial Homogeneitymentioning

confidence: 99%

Achievement of 1020 MHz NMR

Hashi

Ohki

Matsumoto

et al. 2015

Journal of Magnetic Resonance

130

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We have successfully developed a 1020MHz (24.0T) NMR magnet, establishing the world's highest magnetic field in high resolution NMR superconducting magnets. The magnet is a series connection of LTS (low-Tc superconductors NbTi and Nb3Sn) outer coils and an HTS (high-Tc superconductor, Bi-2223) innermost coil, being operated at superfluid liquid helium temperature such as around 1.8K and in a driven-mode by an external DC power supply. The drift of the magnetic field was initially ±0.8ppm/10h without the (2)H lock operation; it was then stabilized to be less than 1ppb/10h by using an NMR internal lock operation. The full-width at half maximum of a (1)H spectrum taken for 1% CHCl3 in acetone-d6 was as low as 0.7Hz (0.7ppb), which was sufficient for solution NMR. On the contrary, the temporal field stability under the external lock operation for solid-state NMR was 170ppb/10h, sufficient for NMR measurements for quadrupolar nuclei such as (17)O; a (17)O NMR measurement for labeled tri-peptide clearly demonstrated the effect of high magnetic field on solid-state NMR spectra.

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“…Figure 9 includes a fit to the data using a power-law function of equation 3, with p=0.72. Extrapolating the magnetic field dependence of I c using equation (3) would predict an I c at 20 T of 6130 A, or a J E at 20 T of 216.8 A mm −2 . The value of p=0.72 as determined from the cable measurement is slightly lower than the value of 0.76 measured on the single tapes.…”

Section: -Tape Corc ® Cable Performance At High Magnetic Fieldsmentioning

confidence: 99%

“…Critical current as a function of magnetic field of three REBCO coated conductors measured at 4.2 K with the magnetic field applied perpendicular to the wide side of the tape. The straight solid lines are fits to the data on a full logarithmic scale according to equation(3).…”

mentioning

confidence: 99%

Engineering current density in excess of 200 A mm⁻²at 20 T in CORC^®magnet cables containing RE-Ba₂Cu₃O_7−δtapes with 38μm thick substrates

Laan¹,

Goodrich²,

Noyes³

et al. 2015

Supercond. Sci. Technol.

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Conductor on round core (CORC ®) cables wound from RE-Ba 2 Cu 3 O 7−δ coated conductors are currently being developed for the next generation of accelerator magnets because of their high flexibility and potential for high engineering current densities J E. CORC ® cables previously reached J E of 114 A mm −2 at 4.2 K and 20 T in a 7.5 mm diameter cable. Accelerator magnets require a current density of at least 300 A mm −2 and a cable-bending diameter as small as 40 mm, which has so far not been possible with superconducting tapes made on 50 μm thick substrates. CORC ® cables made from thinner substrates could have significantly increased J E with greater flexibility as we here demonstrate with a CORC ® cable made of tapes with 38 μm thick substrates. A custom cable machine produced higher cable quality and better retention of tape performance compared to previous cables that were wound by hand. The thinner substrate showed an almost twofold increase in engineering current density from 114 A mm −2 to 216.8 A mm −2 at 4.2 K and 20 T, at a reduction in cable diameter from 7.5 mm to 6.0 mm. The results clearly demonstrate that winding CORC ® cables from tapes with thinner substrates is a straightforward method for raising their current density and one that shows great promise for use in accelerator magnets.

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Operation of a 400 MHz NMR magnet using a (RE:Rare Earth)Ba2Cu3O7− high-temperature superconducting coil: Towards an ultra-compact super-high field NMR spectrometer operated beyond 1 GHz

Cited by 64 publications

References 37 publications

NMR of Macromolecular Assemblies and Machines at 1 GHz and Beyond: New Transformative Opportunities for Molecular Structural Biology

NMR of Macromolecular Assemblies and Machines at 1 GHz and Beyond: New Transformative Opportunities for Molecular Structural Biology

Achievement of 1020 MHz NMR

Engineering current density in excess of 200 A mm⁻²at 20 T in CORC^®magnet cables containing RE-Ba₂Cu₃O_7−δtapes with 38μm thick substrates

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Operation of a 400 MHz NMR magnet using a (RE:Rare Earth)Ba2Cu3O7− high-temperature superconducting coil: Towards an ultra-compact super-high field NMR spectrometer operated beyond 1 GHz

Cited by 64 publications

References 37 publications

NMR of Macromolecular Assemblies and Machines at 1 GHz and Beyond: New Transformative Opportunities for Molecular Structural Biology

NMR of Macromolecular Assemblies and Machines at 1 GHz and Beyond: New Transformative Opportunities for Molecular Structural Biology

Achievement of 1020 MHz NMR

Engineering current density in excess of 200 A mm−2at 20 T in CORC®magnet cables containing RE-Ba2Cu3O7−δtapes with 38μm thick substrates

Contact Info

Product

Resources

About

Engineering current density in excess of 200 A mm⁻²at 20 T in CORC^®magnet cables containing RE-Ba₂Cu₃O_7−δtapes with 38μm thick substrates