Monday, June 14, 2021
Home Science New Radioactivity Measurement Could Boost Precision of Dark Matter Experiments

New Radioactivity Measurement Could Boost Precision of Dark Matter Experiments

A focus of one half per billion is sort of a pinch of salt in 10 tons of potato chips—and scientists can now discover radioactive particles at concentrations tens of millions of instances smaller. In the Journal of Analytical Atomic Spectrometry, researchers describe efficiently detecting radioactive uranium and thorium hiding amongst one thing like 1,000,000 billion different atoms.

The means to identify these tiny quantities of radioactive parts, which happen naturally in metals comparable to gold which are usually utilized in laboratory devices, might have huge penalties for particle physics. Radioactive traces restrict sensitivity in detectors trying to find unique particles, together with those who would possibly make up darkish matter; a minuscule radioactive impurity inside a detector might be mistaken for a particle’s signature, throwing off your complete experiment.

“Before we do anything else, we need the cleanest possible materials,” says Michelle Dolinski, a particle physicist at Drexel University and the Enriched Xenon Observatory, who was not concerned with the research. Her work on uncommon particle searches intertwines with that of chemists tracing radioactivity.

“Physics needs really push the chemistry,” says Pacific Northwest National Laboratory (PNNL) chemist and research co-author Eric Hoppe. He and the opposite researchers pinpointed small concentrations of radioactive thorium and uranium in metallic samples through the use of a mass spectrometer, which separates particles primarily based on their mass.

First, the scientists needed to make radioactive parts extra huge than a steel’s different atoms, explains lead creator Khadouja Harouaka, additionally a chemist at PNNL. To accomplish that, they heated a metallic pattern till it grew to become very reactive and pushed it right into a chamber full of oxygen. Any thorium or uranium within the pattern then mixed with the oxygen to kind molecules huge sufficient to face out in spectrometer information. Scientists subsequent counted these oxidized radioactive particles and calculated their authentic focus— a worth that implies how a lot radiation the fabric would introduce to physics experiments.

Whereas many beforehand developed particle-detection strategies have to be modified for every particular steel, the brand new approach at all times makes use of the identical heating and oxidizing steps. “The whole palette of materials is opening up,” Hoppe says.

Material choices are crucial for the design of particle detectors, says Priscilla Cushman, a physicist on the University of Minnesota and the Super Cryogenic Dark Matter Search experiment, who was not concerned with the research. “There are so many little pieces of [a dark matter] experiment that have different functions,” she says. “The materials that are used for electrical or thermal connections, or even insulation, all those have to be radio pure.” Every new steel examined might be thought of for detector parts. Hoppe can be trying forward: “We’re constantly trying to knock down all of the suspect [radioactive] materials. This work is a nice step forward.”

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