A group of physicists have developed a sensor that, according to them can work function for an entire year with only a single jumpstart of power. To create this sensor, the team used the power of quantum tunneling.
“Imagine there is an apple hanging from a tree,” Shantanu Chakrabartty, research lead and author of the paper published last month in the journal Nature Communications, said in a statement. “You can shake the tree a little bit, but the apple doesn’t fall. You have to give it enough of a tug to shake the apple loose.”
Breaking Barriers
Chakrabartty’s team built a device out of four capacitors, two transistors and a transducer that measures ambient micromotion.
Then, by manipulating a tiny gap inside one of the capacitors, Chakrabartty says they overcame what’s known as the “Fowler-Nordheim tunneling barrier.”
The resulting sensor was able to harness quantum tunneling to keep itself running for more than a year using an initial jumpstart of just 50 million electrons.
Tiny Dancer
Chakrabartty’s tunneling barrier was built in just such a way that “you can control the flow of electrons. You can make it reasonably slow, down to one electron every minute and still keep it reliable.”
The team is hoping the technology could one day power glucose or even brain activity monitors without the need for batteries.
“Right now, the platform is generic,” Chakrabartty said. “It just depends on what you couple to the device. As long as you have a transducer that can generate an electrical signal, it can self-power our sensor-data-logger.”
READ MORE: This Weird, Cheap Quantum Device Can Run For a Year With a Single Kick of Energy [Science Alert]