When you think of radar, you probably think of large rotating military antennae and a green screen with blinking dots. But radar could do more than that, as radio waves are so versatile that they can be used not just to find aircraft, but also buried things, with applications in archaeology, construction, and mining. A new quantum approach, awaiting peer review, could take the bulkiness of the radar away and make it as small as a 1-centimeter (0.4-inch) cube, thanks to the quantum properties of atoms.
The secret to the massive reduction in size from a large antenna is that something else has been made hundreds of times larger: some of the atoms in the detectors. These are known as Rydberg atoms. Often, these applications are near absolute zero, but in this case, cesium atoms at room temperature were the target and central component of the system.
A laser was used to excite the outermost electrons of the cesium, making it swell in size. The atoms were now 10,000 times larger than they usually are – each atom was now almost the size of a bacterium. These inflated atoms are sensitive to electromagnetic fields, and this is why the team could use the system as a radio receiver suitable for a radar system. While the prototype is still bulky, the team believes that it can be shrunk into something the size of a die.
“Instead of having this sizable metal structure to receive the signal, we now can use this small glass cell of atoms that can be about a centimeter in size,” co-author Matthew Simons, from the National Institute of Standards and Technology (NIST), told the MIT Technology Review.
To read more, click here.