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Gyuraki, R., Schreiner, F., Benkel, T., Sirois, F., & Grilli, F. (2020). Fluorescent thermal imaging of a quench in insulated and non-insulated REBCO-wound pancake coils following a heater pulse at 77 K. Superconductor Science and Technology, 33(3), 8 pages. Lien externe
Gyuráki, R., Benkel, T., Schreiner, F., Sirois, F., & Grilli, F. (2019). Fluorescent thermal imaging of a non-insulated pancake coil wound from high temperature superconductor tape. Superconductor Science and Technology, 32(10), 105006 (5 pages). Disponible
Grilli, F., Brambilla, R., Sirois, F., Stenvall, A., & Memiaghe, S. (2013). Development of a Three-Dimensional Finite-Element Model for High-Temperature Superconductors Based on the H-Formulation. Cryogenics, 53, 142-147. Lien externe
Grilli, F., Sirois, F., Brault, S., Brambilla, R., Martini, L., Nguyen, D. N., & Goldacker, W. (2010). Edge and top/bottom losses in non-inductive coated conductor coils with small separation between tapes. Superconductor Science and Technology, 23(3), 034017-034017. Lien externe
Nguyen, D. N., Ashworth, S. P., Willis, J. O., Sirois, F., & Grilli, F. (2010). A new finite-element method simulation model for computing AC loss in roll assisted biaxially textured substrate YBCO tapes. Superconductor Science and Technology, 23(2), 025001-025001. Lien externe
Riva, N., Richard, S., Sirois, F., Lacroix, C., Dutoit, B., & Grilli, F. (2019). Overcritical current resistivity of YBCO-coated conductors through combination of PCM and finite-element analysis. IEEE Transactions on Applied Superconductivity, 29(5), 1-5. Lien externe
Sirois, F., & Grilli, F. (2015). Potential and limits of numerical modelling for supporting the development of HTS devices. Superconductor Science and Technology, 28(4), 043002 (12 pages). Lien externe
Stenvall, A., Siahrang, M., Grilli, F., & Sirois, F. (2013). Computation of self-field hysteresis losses in conductors with helicoidal structure using a 2D finite element method. Superconductor Science and Technology, 26(4). Lien externe
Zermeño, V., Sirois, F., Takayasu, M., Vojenciak, M., Kario, A., & Grilli, F. (2015). A self-consistent model for estimating the critical current of superconducting devices. Superconductor Science and Technology, 28(8), 085004 (12 pages). Lien externe
