SRF material research using muon spin rotation and beta-detected nuclear magnetic resonance

Junginger, Tobias; Laxdal, Robert; MacFarlane, W. A.; Suter, Andreas

doi:10.3389/femat.2024.1346235

Cited by 2 publications

(1 citation statement)

References 86 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Non-destructive bulk measurements of the fields inside superconductors have been performed using techniques utilizing spin-polarized beams such as high-energy muons (so-called conventional muons with a nominal energy of 4 MeV) 12,27 and neutrons 26 . Depth-resolved and local measurements of the surface field in SRF samples have been performed using the low-energy muon spin rotation (LE-µSR) technique [28][29][30] . However, the LE-µSR technique is limited to low applied fields of ≤30 mT 31,32 -far less than the typical magnitude of B c1 or B sh of Nb.…”

Section: Introductionmentioning

confidence: 99%

Depth-resolved Characterization of Meissner Screening Breakdown in Surface Treated Niobium

Thoeng,

Asaduzzaman,

Kolb

et al. 2024

Preprint

View full text Add to dashboard Cite

We report direct measurements of the magnetic field screening at the limits of the Meissner phase for two superconducting Nb samples. The samples are processed with two different surface treatments that have been developed for superconducting radio-frequency cavity applications — a “baseline” treatment and an oxygen-doping (“O-doping” ) treatment. The measurements show: 1) that the screening length is significantly longer in the “O-doping” sample compared to the “baseline” sample; 2) that the screening length near the limits of the Meissner phase increases with applied field; 3) the evolution of the screening profile as the material transitions from the Meissner phase to the mixed phase; and 4) a demonstration of the absence of any screening profile for the highest applied field, indicative of the full flux entering the sample. Measurements are performed utilizing the β -detected nuclear magnetic resonance (β -NMR) technique that allows depth resolved studies of the local magnetic field within the first 100 nm of the surface. The study takes advantage of the β -SRF beamline, a new facility at TRIUMF, Canada, where field levels up to 200 mT are available parallel to the sample surface to replicate radio frequency (RF) fields near the Meissner breakdown limits of Nb.

show abstract

Section: Introductionmentioning

confidence: 99%

Depth-resolved Characterization of Meissner Screening Breakdown in Surface Treated Niobium

Thoeng,

Asaduzzaman,

Kolb

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Depth-resolved characterization of Meissner screening breakdown in surface treated niobium

Thoeng,

Asaduzzaman,

Kolb

et al. 2024

Sci Rep

View full text Add to dashboard Cite

We report direct measurements of the magnetic field screening at the limits of the Meissner phase for two superconducting niobium (Nb) samples. The samples are processed with two different surface treatments that have been developed for superconducting radio-frequency (SRF) cavity applications—a “baseline” treatment and an oxygen-doping (“O-doping”) treatment. The measurements show: (1) that the screening length is significantly longer in the “O-doping” sample compared to the “baseline” sample; (2) that the screening length near the limits of the Meissner phase increases with applied field; (3) the evolution of the screening profile as the material transitions from the Meissner phase to the mixed phase; and (4) a demonstration of the absence of any screening profile for the highest applied field, indicative of the full flux entering the sample. Measurements are performed utilizing the -detected nuclear magnetic resonance ( -NMR) technique that allows depth resolved studies of the local magnetic field within the first 100 nm of the surface. The study takes advantage of the -SRF beamline, a new facility at TRIUMF, Canada, where field levels up to 200 mT are available parallel to the sample surface to replicate radio frequency fields near the Meissner breakdown limits of Nb.

show abstract

SRF material research using muon spin rotation and beta-detected nuclear magnetic resonance

Cited by 2 publications

References 86 publications

Depth-resolved Characterization of Meissner Screening Breakdown in Surface Treated Niobium

Depth-resolved Characterization of Meissner Screening Breakdown in Surface Treated Niobium

Depth-resolved characterization of Meissner screening breakdown in surface treated niobium

Contact Info

Product

Resources

About