Manufacturing update: Faraday Cup
Designed for reliable beam current measurements in high vacuum, the assembly is pneumatically actuated via a high-vacuum feedthrough and features active water cooling for stable operation under thermal load.
A key manufacturing step is the vacuum brazing of the copper cooling section in a vacuum furnace, ensuring high-quality joints, excellent heat transfer, and long-term reliability in UHV conditions.
This project highlights our capabilities in precision fabrication, joining technologies, and build-to-spec components for accelerator and vacuum applications. We’re happy to connect with teams looking for robust UHV hardware and thermal solutions.
Designed for reliable beam current measurements in high vacuum, the assembly is pneumatically actuated via a high-vacuum feedthrough and features active water cooling for stable operation under thermal load.
A key manufacturing step is the vacuum brazing of the copper cooling section in a vacuum furnace, ensuring high-quality joints, excellent heat transfer, and long-term reliability in UHV conditions.
This project highlights our capabilities in precision fabrication, joining technologies, and build-to-spec components for accelerator and vacuum applications. We’re happy to connect with teams looking for robust UHV hardware and thermal solutions.
