MICADAS is the leading AMS ¹⁴C system from Ionplus AG, providing superior accuracy, energy efficiency, and a compact design for advanced radiocarbon dating applications.

Discover MILEA light, the compact multi-isotope Accelerator Mass Spectrometry (AMS) solution from Ionplus AG. Optimized for high-performance measurements of ¹⁰Be, ¹⁴C và ²⁶Al, it is the ideal choice for advanced applications in geosciences and radiocarbon research.

The new generation multi-isotope accelerator mass spectrometry (AMS) system from Ionplus AG features a world-leading compact design (only 3.5m x 7m), the ability to accurately analyze multiple isotopes (such as ¹⁰Be, ¹⁴C, ²⁶Al...), and user-friendly operation. MILEA delivers outstanding performance without the need for SF₆ gas, optimized for advanced scientific research.

Attom ES is a high-frequency inductively coupled plasma mass spectrometry system with dual-focusing technology, specializing in the rapid and accurate analysis of isotope ratios and trace elements in solid/liquid sample matrices. With a wide dynamic range detection system & recording data for up to 73 elements in <105ms, Attom ES is a powerful solution for geochronology, environmental science, and nanomaterials research.

Plasma 3 is a multi-collector mass spectrometry system specialized for multi-isotope analysis with high accuracy and repeatability. The device features a variable Zoom lens that allows switching between isotope systems without moving the detector. It has a static detector array with 16 Faraday cups and up to 6 ion counting detectors. It is the optimal solution for Earth science, environmental, nuclear, archaeological, forensic, and biomedical applications.

Sapphire is a Multi-Collector Inductively Coupled Plasma Mass Spectrometry (MC-ICPMS) system featuring a proprietary dual-path technology, integrating a collision/reaction cell to thoroughly eliminate spectral interferences from the argon source. The instrument possesses two distinct ion paths: a high-energy path (6 kV) for traditional isotope analyses, and a low-energy path (4 kV) routed through the reaction hexapole. It stands as an ideal solution for analyses in geochemistry, cosmochemistry, and life sciences

Nu Plasma 1700 is a multi-collector mass spectrometry system (MC-ICP-MS) designed for large mass dispersion (mass dispersion ~1700 mm). The device can achieve a resolution of >30,000, while at levels >5,000 it still maintains a flat-top peak, preserving almost absolute sensitivity. Each detector is equipped with independently adjustable slits. An optimal solution in geochemistry, cosmochemistry, and life sciences.

Vitesse is an Inductively Coupled Plasma Time-of-Flight Mass Spectrometry (ICP-TOF-MS) system, specifically designed for high-speed multi-element applications such as laser ablation imaging and nanoparticle analysis. It features a segmented reaction cell and powerful interference removal capabilities, making it an ideal solution for geochemical, biological, environmental, and materials research.

Nu TIMS is a thermal ionization mass spectrometry system developed based on variable dispersion multi-collector technology. Nu TIMS achieves peak accuracy with a mass range of 5–300 amu, outstanding sensitivity, and fully automated operation. An optimal solution for U-Pb geochronology, radioactive isotope analysis (Sr, Nd, Pb) and nuclear, environmental, and cosmochemical applications.

Is the generation of large configuration secondary ion mass spectrometers (LG-SIMS) the most advanced from CAMECA, a device that provides sensitivity and spatial resolution - mass at an absolute level. This is the optimal cost-effective analytical solution for geochemical research, trace element measurement, mineral dating, and analysis of micro-particles for nuclear safety control.

Equipped with dual magnetic convergence SIMS technology, the IMS 7f-Auto secondary ion mass spectrometer provides excellent depth resolution with a detection limit of ppb. This is a fully automated analytical solution that delivers high throughput for the semiconductor, optoelectronics, and materials industries, maximizing productivity with continuous operation 24/7.

Developed from the renowned IMS 7f platform, the secondary ion mass spectrometry (SIMS) with ACTINIS casing features an advanced radiation protection system, allowing for the measurement of radioactive samples up to 2 Gy/h. The device achieves sub-micron spatial resolution, optimizing transmission and the ability to measure isotope ratios. This is a safe automation solution, ideal for optimizing the nuclear fuel cycle and waste management.

Is a secondary ion mass spectrometer IMS 7f-GEO specialized from CAMECA, integrating a dual detector (FC/FC) and Electron Multiplier. The device offers an ultra-fast peak switching speed of 0.3s, reducing measurement time from >3000s to 56s. This is the optimal High-throughput solution for analyzing stable isotopes and rare earth elements (REE) in geochemistry.

Horizon 2 is a stable isotope mass spectrometry system designed for both Dual Inlet (DI) and Continuous Flow (CF) analysis. The proprietary Zoom Optics system combined with narrow Faraday cups allows simultaneous monitoring of masses from 1 to 100 with precise peak matching. An ideal solution for geochemistry, environmental science, food traceability, and forensics.

Perspective is a stable isotope mass spectrometry system with a versatile collector supporting up to 12 Faraday detectors along with proprietary Zoom Optics technology. Flexibly integrates both Dual Inlet (DI) and Continuous Flow (CF) analysis, enabling accurate analysis of stable isotopes C, N, O, S, H. An ideal solution for geochemistry, environmental science, food traceability, forensics, and advanced clumped isotopes analysis.