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Han-Sung Kim (Korea Atomic Energy Research Institute)18/08/2026, 08:30MC3.A04: Proton linac projectsInvited Talk (Invitation Only)
The 100 MeV proton linac at KOMAC has operated since 2013, providing irradiation services for materials, biomedical, semiconductor, and nuclear/basic science through four user beamlines. The accelerator comprises a 50 keV injector, 3 MeV RFQ, and DTL to 100 MeV. Major beamlines support multidisciplinary research, semiconductor radiation assessment, and isotope production, while a...
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Dr Olivier Napoly (Fermi National Accelerator Laboratory)18/08/2026, 08:50MC3.A04: Proton linac projectsInvited Talk (Invitation Only)
The PIP-II Project is under construction to provide the Fermilab Accelerator Complex with a new H- SRF linac and beam transfer line delivering 800 MeV protons at Booster injection at double energy and double intensity (6.7x1012 proton per 20 Hz pulse) in comparison with the present Linac.
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The design goals of PIP-II Linac will be described, including delivering 1.2 kW beam power on LBNF/DUNE... -
Erdong Wang (Brookhaven National Laboratory)18/08/2026, 09:10MC1.A02 Electron and ion sources, guns, photo injectors, charge breedersInvited Talk (Invitation Only)
Polarized electron sources are essential for accelerator facilities such as the Electron–Ion Collider and polarized positron sources, which require guns with higher voltage and bunch charge than existing polarized gun. At Brookhaven National Laboratory, we developed an inverted High-Voltage DC (HVDC) polarized photoemission gun with a Distributed Bragg Reflector superlattice GaAs photocathode...
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Chang-Ki Min (Pohang Accelerator Laboratory)18/08/2026, 09:30MC2.A07: Synchrotron light sourcesInvited Talk (Invitation Only)
As part of the ongoing Korea-4GSR (Fourth-Generation Synchrotron Radiation) project, a 200 MeV electron linac is being developed based on an S-band photocathode, rather than the conventional thermionic gun approach. The gun provides high electron energy (4 MeV) and low emittance, which simplifies the design of the initial accelerating RF system, magnets, and beam transport to the booster. The...
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Mattia Parise (Fermi National Accelerator Laboratory)18/08/2026, 09:50MC4.A08: Superconducting RFInvited Talk (Invitation Only)
Achieving robotic-assisted string assembly has been a longstanding objective in superconducting cavity production to improve precision, repeatability, and throughput while reducing operator-dependent variability. At Fermilab, robotic systems have been successfully deployed for the installation of individual components on SSR2 cavities inside a cleanroom environment. The single-cavity...
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Feng Qiu (Institute of Modern Physics, Chinese Academy of Sciences)18/08/2026, 10:10MC4.A08: Superconducting RFInvited Talk (Invitation Only)
High-intensity superconducting linear accelerators present significant challenges regarding efficiency and reliability during both commissioning and operation. This paper summarizes the engineering practices in full-process automated operation and maintenance implemented for the HIAF-iLinac SRF system. To address the requirements of large-scale cavity commissioning, an automated conditioning...
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