Revolutionary 2D Quantum Cooling System Achieves Ultra-Low Temperatures

EPFL researchers develop a device that converts heat to electricity, offering unprecedented cooling for quantum computers.

The new system operates at 100 millikelvin, colder than outer space.
It combines graphene and indium selenide to form a highly efficient 2D structure.
The device uses the Nernst effect to convert heat into electrical voltage.
It can be integrated into existing quantum computers without major upgrades.
This breakthrough could significantly advance cooling technologies in quantum computing.