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Scientists Have Created a Specially-Made Fridge to Keep Quantum Computers From Melting
The First of Its Kind
We’re all familiar with the occasional heating from our gadgets and devices, especially when we ramp up usage. Usually, in the case of desktop and laptop computers, there’s a fan somewhere to keep the temperature inside from frying circuits. More modern computers have dropped the fans and now rely instead on materials that dissipate heat or batteries that don’t heat up that much.
This necessity to keep things cool is a similarity that quantum computers share with their classical cousins. The difference is, quantum computers need cooling at the nanoscale level — keeping the temperatures of quantum bits (“qubits”) from rising uncontrollably. The solve this, researchers from the Aalto University in Finland have designed the first standalone refrigeration device for quantum circuits.
The nanoscale refrigerator Möttönen and his colleagues designed works by manipulating electrons. “Here we demonstrate direct cooling of a superconducting resonator mode using voltage-controllable electron [tunneling] in a nanoscale refrigerator,” the researchers, led by Mikko Möttönen, wrote in their study published in the journal Nature Communications.
A Cool Solution
In short, hotter electrons jump to a superconducting lane, leaving the cooler electrons in a photon resonator — a device that works as a qubit. This process cools both the resonator and the electrons over time. “It’s kind of like a gate similar to Maxwell’s Demon, where you only allow electrons with energy above a certain threshold to cross,” CalTech’s Spiros Michalakis told New Scientist, commenting on the device.
This technology could help quantum computers run faster and more efficiently by solving a problem that lies at the heart of tech that uses qubits. Qubits are able to store more information than binary bits in classical computing by being a 0 or a 1 at the same time, thanks to a phenomenon known as superposition. However, qubits must start in their low-temperature ground state to perform calculations, which becomes difficult because they tend to heat up in computers. So, to run multiple algorithms, qubits have to go through a cooling cycle.
Once the nanoscale refrigerator gets built, tested, and found to be sufficient to cool qubits, we may be a step closer to commercial quantum computers. “Maybe in 10 to 15 years, this might be commercially useful,” Möttönen told New Scientist. “It’s going to take some time, but I’m pretty sure we’ll get there.”
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