Speaker
Description
A thorough understanding of material properties in vacuum, including cleanliness and storage conditions, is critical for ensuring the longevity of accelerator vacuum systems. Originally established for the design, testing, and installation of components for projects like Adone, DAΦNE, and SPARC, the LNF-INFN vacuum laboratory has evolved into a strategic infrastructure supporting current and future flagship projects, including TEX, EuPRAXIA, FCC, ET and EIC. The facility features an ultra-high vacuum (UHV) component preparation and cleaning room with large ultrasonic tanks, a vacuum brazing furnace (10⁻⁶ mbar, up to 1200°C), a heat-treatment furnace (up to 450°C), and an outgassing characterization system. In collaboration with MaSSLab at DAΦNE-L, it also provides surface characterization capabilities, including XPS and Secondary Electron Yield (SEY) measurements at both room and cryogenic temperatures. This work presents each system's technical specifications alongside relevant application case studies.
| In which format do you inted to submit your paper? | LaTeX |
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