SCIENTIFIC
INSTRUMENTS
for Radiocarbon Dating and Accelerator Mass Spectrometry
AMS APPLICATIONS
Find the best solutions for your specific needs in ¹⁴C and AMS analysis.
We are there for you – from consulting on application requirements and product
combinations to trainings and support in your daily work.
HIGH PRECISION
Archeological samples together with samples from paleoclimatology and radiocarbon calibration projects require highest precision, reproducibility and reliability.
ARCHAEOLOGY
SMALL SAMPLE SIZES
From carbon cycle studies to biogeochemistry, Ionplus offers the right equipment to deal with challenging sample sizes and sample matrices from a wide variety of research areas.
ENVIRONMENTAL SCIENCE
HANDLING OF CARBONATES AND DIC
From sediments to water samples, from the analysis of single foraminifera to dissolved inorganic carbon, Ionplus offers equipment for fully automated sample treatment, acidification and sampling.
MARINE RESEARCH
SIMULTANEOUS δ¹³C MEASUREMENTS
As certification of biofuels and plant-derived materials becomes more important, we offer a fast, reproducible
all-in-one solution for simultaneous ¹⁴C and δ¹³C analysis.
MATERIALS SCIENCE
HIGH THROUGHPUT,
CARBON QUANTIFICATION
Ionplus combines the excellent sensitivity of AMS with the ultrafast and automated ¹⁴C analysis required for high-throughput microtracing studies.
BIOMEDICINE
HIGH PRECISION, SIMULTANEOUS δ¹³C MEASUREMENTS
Forensic applications span a wide variety of sample backgrounds and typically rely on the radiocarbon “bomb peak”, which can deliver valuable information, in particular when combined with stable isotope information.
FORENSICS
¹⁴C, ¹⁰Be AND ²⁶Al MEASUREMENTS
Burial and in-situ exposure dating, glacial erosion studies or the determination of denudation rates are just a few of the many applications accessible with the MILEA system through the measurement of ¹⁰Be, ¹⁴C and ²⁶Al.
GEOLOGY
TRACING AND MONITORING
Tracing and monitoring of anthropogenic I, U and Pu nuclides is a steadily growing field. MILEA offers the highest performance for these applications at lowest energies.
