You may probably wonder how archaeologists determine the age of ancient artifacts or how long a piece of rock exists above the surface. Isotopic dating can tell the age covering hundreds of thousands of years. For instance, the commonly heard carbon isotope 14C dating can determine the age of up to 50,000 years. Theoretically, the cosmogenic isotope 41Ca, with a half-life of 99,000 years (17 times that of 14C), can cover an age scale beyond the reach of 14C. Nevertheless, the distribution of 41Ca natural abundances spans the range of 10-15 to 10-16, below the limitation of the present accelerator mass spectrometry (AMS) method.
The Ph.D. student SUN Weiwei in Prof. Lu’s group operating the laser system to manipulate and capture the atoms (Image by Prof. LU’s team)
Now the detection limitation of 41Ca is broken by a research team led by Prof. LU Zhengtian and Dr. XIA Tian from the University of Science and Technology of China (USTC). The researchers realized the single-atom detection of 41Ca at the 10-17 level using the atom-trap trace analysis (ATTA) method and performed demonstration analyses on bone, rock, and seawater samples. The results were published in Nature Physics on March 2nd.
Schematic diagram of an ATTA apparatus for 41Ca/Ca
analysis (Image by XIA Tongyan et al.)
In this study, the researchers first chemically extracted 80 mg of metallic calcium samples from bones, granite, and seawater. The calcium is then loaded into an oven and heated to produce a neutral atomic beam. The atoms are transversely cooled and focused with laser beams. Then they are decelerated in a Zeeman slower and captured into a magneto-optical trap (MOT). Through those operations, the researchers can count the 41Ca atom one by one by measuring their fluorescence. LU’s team realized a precision of 12% on the 41Ca/Ca ratio at the level of 10−16 and achieved a detection limit at the level of 10−17, which is below the distribution of natural abundances.
Those results ensured the feasibility of potential applications, such as the burial dating of bones and exposure dating of rocks. Next, the researchers will collaborate with worldwide archaeologists and geologists to explore the suitability of 41Ca as a tracer.
Paper link: https://www.nature.com/articles/s41567-023-01969-w
(Written by SHU Yukang, edited by MA Xuange, USTC News Center)