*Alexander Molodyk^1,2, Sergey Samoilenkov², Anton Markelov¹, Pavel Degtyarenko¹, Sergey Lee³, Valery Petrykin³, Marat Gaifulling³, Andrey Vavilov^1,2,3, 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