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AI computers could run in extreme environments like Venus thanks to heat-proof memory device

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New computing storage which can operate at temperatures so hot that rock starts to melt could pave the way for computers that work in the harshest environments on Earth — and, for the first time, on Venus.

The toughest current non-volatile memory (NVM) devices — which include solid-state drives (SSDs) — fail once temperatures reach 572 degrees Fahrenheit (300 degrees Celsius). But scientists have created and tested a new ferroelectric diode (a semiconductor switching device) that continued working for hours even when they turned up the heat to 1,112 degrees F (600 C).

This means sensors and computing devices that use the diode could be placed into extreme environments — such as nuclear plants, deep-field oil and gas exploration or our solar system’s hottest planet — where they would previously have failed within seconds.

The NVM device, described in a paper published April 29 in the journal Nature Electronics, is made using a material called ferroelectric aluminum scandium nitride (AlScN). It’s at the cutting edge of material Science, having only emerged as an option for high-performance semiconductors in the past five years. 

As with any molecule, the key is the ratio of atoms. Here, the device was based on an AlScN diode that measured 45 nanometers thick — 1,800 times smaller than the width of a human hair.

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A photograph of the special computer chip

The computer storage device is made from ferroelectric aluminum scandium nitride, which can withstand extreme temperatures. (Image credit: University of Pennsylvania)

"If it’s too thin, the increased activity can drive diffusion and degrade a material," said Dhiren Pradhan, a postdoctoral researcher in electrical and systems engineering at the University of Pennsylvania, in a statement."If too thick, there goes the ferroelectric switching we were looking for, since the switching voltage scales with thickness and there is a limitation to that in practical operating environments. So, my lab and Roy Olsson’s lab worked together for months to find this Goldilocks thickness.”

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