Main features
- Cost-optimized configuration: A specially tuned version of the renowned MILEA series, focusing maximally on the most common isotopes to minimize excess hardware investment costs.
- Flexible core isotope mapping: High-sensitivity measurement of key radioactive isotopes including 10Be, 14C, 26Al and supports flexible upgrade options for isotope 41Ca.
- Smart streamlined hardware design: Completely eliminates static analysis (ESA) on the low energy (LE) side, simplifying the ion optical structure and shortening the machine calibration process.
- Improved high-energy ion optics: The high energy (HE) design is completely restructured with optimized magnetic and electrostatic deflection systems, enhancing ion beam transmission efficiency.
- Neat dedicated measurement cup system: Equipped with a system of 5 Faraday cups on the high energy side, ensuring accurate and stable measurement of both negative and positive ion currents.
- Environmentally friendly operation: Does not use the toxic insulating gas SF6 thanks to advanced vacuum insulation technology, minimizing operational risks and protecting the laboratory environment.
- Synchronized auxiliary scalability: Seamlessly integrates with the GIS gas sample loading system, AMC automatic sample exchange system for continuous 24/7 measurement, and the ACS/LMP software ecosystem of Ionplus.
Detailed description
MILEA light is the smart, compact version of the MILEA line, optimizing performance for basic isotopes. The system eliminates the low-energy static electric analyzer (ESA) and restructures the high-energy side using magnetic and static electric deflection systems. The device operates at a voltage of 300 kV with insulation from ground, using a helium stripper and a system of 5 Faraday cups for independent current measurement.
Laboratories needing to measure core isotopes often have to invest in bulky, high-cost multi-isotope systems that are excessive in features for Actini. MILEA light thoroughly addresses this by eliminating unnecessary hardware, reducing initial investment costs, completely removing the toxic SF6 gas, and minimizing installation space.
The device easily synchronizes with the GIS gas sample interface to directly measure CO2 gas, the AMC sample tray exchange system enhances continuous measurement capacity without losing vacuum, along with the ACS control software and centralized data management LMP.