New quantum navigation device uses atoms to measure acceleration in 3D
Quantum technology represents one of the most promising frontiers of modern science, potentially revolutionizing industries from computing to healthcare and beyond. The university is at the forefront of this exciting field, leveraging its robust academic and research capabilities to push the boundaries of what quantum technologies can achieve.
This article was published at colorado.edu/today
In a new study, physicists at the University of Colorado 51传媒 have used a cloud of atoms chilled down to incredibly cold temperatures to simultaneously measure acceleration in three dimensions鈥攁 feat that many scientists didn鈥檛 think was possible.
The device, a new type of atom 鈥渋nterferometer,鈥 could one day help people navigate submarines, spacecraft, cars and other vehicles more precisely.
鈥淭raditional atom interferometers can only measure acceleration in a single dimension, but we live within a three-dimensional world,鈥 said Kendall Mehling, a co-author of the new study and a graduate student in the Department of Physics at CU 51传媒. 鈥淭o know where I'm going, and to know where I鈥檝e been, I need to track my acceleration in all three dimensions.鈥
The researchers published their paper, titled 鈥,鈥 this month in the journal Science Advances. The team included Mehling; Catie LeDesma, a postdoctoral researcher in physics; and Murray Holland, professor of physics and fellow of between CU 51传媒 and the (NIST).
In 2023, NASA through the agency鈥檚 Quantum Pathways Institute to continue developing the sensor technology.
The new device is a marvel of engineering: Holland and his colleagues employ six lasers as thin as a human hair to pin a cloud of tens of thousands of rubidium atoms in place. Then, with help from artificial intelligence, they manipulate those lasers in complex patterns鈥攁llowing the team to measure the behavior of the atoms as they react to small accelerations, like pressing the gas pedal down in your car.
Today, most vehicles track acceleration using GPS and traditional, or 鈥渃lassical,鈥 electronic devices known as accelerometers. The team鈥檚 quantum device has a long way to go before it can compete with these tools. But the researchers see a lot of promise for navigation technology based on atoms.
鈥淚f you leave a classical sensor out in different environments for years, it will age and decay,鈥 Mehling said. 鈥淭he springs in your clock will change and warp. Atoms don鈥檛 age.鈥
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