*Alexander Molodyk1,2, Sergey Samoilenkov2, Anton Markelov1, Pavel Degtyarenko1, Sergey Lee3, Valery Petrykin3, Marat Gaifulling3, Andrey Vavilov1,2,3, Brandon Sorbom4, Jessica Cheng4, Sarah Garberg4, Zachary Hartwig5, Alexey Tsvetkov6, Satoshi Awaji7, Dmytro Abraimov8, David Larbalestier8, Carmine Senatore9, Stuart Wimbush10, Nick Strickland10, Alexander Vasilyev11
(1. S-Innovations (Russia), 2. SuperOx (Russia), 3. SuperOx Japan (Japan), 4. Commonwealth Fusion Systems (United States of America), 5. Massachusetts Institute of Technology (United States of America), 6. P.N. Lebedev Physics Institute (Russia), 7. Institute for Materials Research, Tohoku University (Japan), 8. National High Magnetic Field Laboratory, Florida State University (United States of America), 9. University of Geneva (Switzerland), 10. Robinson Research Institute, Victoria University of Wellington (New Zealand), 11. Shubnikov Institute of Crystallography (Russia))
Keywords:2G HTS wire, fusion, high magnetic field, pinning, engineering current density