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Jump to: 2023 | 2022 | 2021 | 2020 | 2019
2023
Training Curves of Nb3Sn Rutherford Cables With a Wide Range of Impregnation Materials Measured in the BOX Facility (2023)IEEE transactions on applied superconductivity, 33(5). Article 4003605. Otten, S., Kario, A., Wessel, W. A. J., Leferink, J., Ten Kate, H. H. J., Daly, M., Hug, C., Sidorov, S., Brem, A., Auchmann, B., Studer, P. & Tervoort, T.https://doi.org/10.1109/TASC.2023.3267051Effect of a DC transport current on the AC loss in no-insulation ReBCO racetrack coils exposed to AC parallel magnetic field at 77 K and 4.2 K (2023)Superconductor science and technology, 36(7). Article 075003. ter Harmsel, J., Otten, S., Dhallé, M. & ten Kate, H.https://doi.org/10.1088/1361-6668/acd666Calculation and measurement of coupling loss in a no-insulation ReBCO racetrack coil exposed to AC magnetic field (2023)Superconductor science and technology, 36(4). Article 044002. Otten, S., ter Harmsel, J., Dhallé, M. & Ten Kate, H.https://doi.org/10.1088/1361-6668/acbcf5Predictable and robust performance of a Bi-2223 superconducting coil for compact isochronous cyclotrons (2023)Superconductor science and technology, 36(4). Article 045018. Vermeer, C. H., Tolboom, A. H., Otten, S. J., G Krooshoop, H. J., Lubkemann, R., Leferink, J., Wessel, W. A. J., Nijhuis, A., Godeke, A., Walpole, M., Heese, J., Hayashi, K. & Shizuya, E.https://doi.org/10.1088/1361-6668/acba4cDesign of the Superconducting AC and DC Distribution for the ASCEND Demonstrator at Airbus (2023)IEEE transactions on applied superconductivity, 33(5). Article 5401006. Nilsson, E., Rivenc, J., Rouquette, J. F., Tassisto, M., Fallouh, C., Ybanez, L., Delarche, A., Berg, F., Dönges, S. A., Weiss, J., Radcliff, K., van Der Laan, D. C., Otten, S., Dhalle, M. & Ten Kate, H.https://doi.org/10.1109/TASC.2023.3247990Magnetization loss and transport current loss in ReBCO racetrack coils carrying stationary current in time-varying magnetic field at 4.2 K (2023)Superconductor science and technology, 36(1). Article 015011. Harmsel, J. t., Otten, S., Dhallé, M. & ten Kate, H.https://doi.org/10.1088/1361-6668/aca83d
2022
Training performance of Nb3Sn Rutherford cables in a channel with a wide range of impregnation materials (2022)[Working paper › Preprint]. ArXiv.org. Otten, S., Kario, A., Wessel, W. A. J., Leferink, J., Ten Kate, H. H. J., Daly, M., Hug, C., Sidorov, S., Brem, A., Auchmann, B., Studer, P. & Tervoort, T.https://doi.org/10.48550/arXiv.2211.10213Improved training in paraffin-wax impregnated Nb3Sn Rutherford cables demonstrated in BOX samples (2022)Superconductor science and technology, 35(5). Article 055014. Daly, M., Auchmann, B., Brem, A., Hug, C., Sidorov, S., Otten, S., Dhallé, M., Guo, Z., Kario, A. & Ten Kate, H. H. J.https://doi.org/10.1088/1361-6668/ac6123
2021
BOX: An efficient benchmark facility for the study and mitigation of interface-induced training in accelerator type high-field superconducting magnets (2021)Superconductor science and technology, 34(11). Article 115008. Daly, M., Auchmann, B., Hug, C., Sidorov, S., Otten, S., Kario, A., Dhallé, M. & ten Kate, H.https://doi.org/10.1088/1361-6668/ac2002
2020
Anisotropic monoblock model for computing AC loss in partially coupled Roebel cables (2020)Superconductor science and technology, 33(9). Article 094013. Otten, S., Kario, A., Demenčik, E., Nast, R. & Grilli, F.https://doi.org/10.1088/1361-6668/ab9939
2019
Simple and Fast Method for Computing Induced Currents in Superconductors Using Freely Available Solvers for Ordinary Differential Equations (2019)IEEE transactions on applied superconductivity, 29(8). Article 8880501. Otten, S. & Grilli, F.https://doi.org/10.1109/TASC.2019.2949240Inter-strand resistance and AC loss in resin-filler impregnated ReBCO Roebel cables (2019)Superconductor science and technology, 32(12). Article ab4665. Gao, P., Dhallé, M., van Nugteren, B., Norder, H., Kario, A., Otten, S., Goldacker, W., van Nugteren, J., Kirby, G., De Rijk, G., Bottura, L., Rossi, L. & ten Kate, H. H. J.https://doi.org/10.1088/1361-6668/ab4665
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