2024 Nb3Sn Unveiling Event
From left: Rongli Geng, Matt Poelker, Jared Martin, Aaron Auston, Alex Bogacz, Michael Drury, Mike Spata, Andrew Hutton and Uttar Pudasaini pose for a photo next to the Nb3Sn cyromodule, named Gray Enid I, during the dedication and unveiling ceremony held inside the Upgraded Injector Test Facility (UITF) at Jefferson Lab in Newport News, Va., on Wednesday, Nov. 20, 2024. (Aileen Devlin | Jefferson Lab)
Jefferson Lab developed the next generation of SRF accelerator technology based on the new material niobium-tin (Nb3Sn). After decades of work, the first prototype niobium-tin cyromodule with two CEBAF-style SRF Nb3Sn cavities completed its qualification test in the Cyromodule Testing Facility (CMTF) at Jefferson lab.
The once-in-half-a-century milestone represents the beginning of a new era of SRF technology for particle accelerators and potentially many other scientific instruments.
2024 Nb3Sn Unveiling Event
From left: Rongli Geng, Matt Poelker, Jared Martin, Aaron Auston, Alex Bogacz, Michael Drury, Mike Spata, Andrew Hutton and Uttar Pudasaini pose for a photo next to the Nb3Sn cyromodule, named Gray Enid I, during the dedication and unveiling ceremony held inside the Upgraded Injector Test Facility (UITF) at Jefferson Lab in Newport News, Va., on Wednesday, Nov. 20, 2024. (Aileen Devlin | Jefferson Lab)
Jefferson Lab developed the next generation of SRF accelerator technology based on the new material niobium-tin (Nb3Sn). After decades of work, the first prototype niobium-tin cyromodule with two CEBAF-style SRF Nb3Sn cavities completed its qualification test in the Cyromodule Testing Facility (CMTF) at Jefferson lab.
The once-in-half-a-century milestone represents the beginning of a new era of SRF technology for particle accelerators and potentially many other scientific instruments.