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Microsoft’s New Majorana 1 Processor Could Transform Quantum Computing
Crypto & AI3 min readFebruary 22, 2025

Microsoft’s New Majorana 1 Processor Could Transform Quantum Computing

THIS ARTICLE IS republished from The Conversation under a Creative Commons license. Researchers at Microsoft have announced the creation of the first “topologic

JR
Joe Robertson · In crypto since 2017, writing since 2025
Published 22 Feb 2025

THIS ARTICLE IS republished from The Conversation under a Creative Commons license. Researchers at Microsoft have announced the creation of the first “topologic

THIS ARTICLE IS republished from The Conversation under a Creative Commons license.

Researchers at Microsoft have announced the creation of the first “topological qubits” in a device that stores information in an exotic state of matter, in what may be a significant breakthrough for quantum computing.

At the same time, the researchers also published a paper in Nature and a “road map” for further work. The design of the Majorana 1 processor is supposed to fit up to a million qubits, which may be enough to realize many significant goals of quantum computing—such as cracking cryptographic codes and designing new drugs and materials faster.

If Microsoft’s claims pan out, the company may have leapfrogged competitors such as IBM and Google, who currently appear to be leading the race to build a quantum computer.

However, the peer-reviewed Nature paper only shows part of what the researchers have claimed, and the road map still includes many hurdles to be overcome. While the Microsoft press release shows off something that is supposed to be quantum computing hardware, we don’t have any independent confirmation of what it can do. Nevertheless, the news from Microsoft is very promising.

By now you probably have some questions. What’s a topological qubit? What’s a qubit at all, for that matter? And why do people want quantum computers in the first place?

Quantum computers were first dreamed up in the 1980s. Where an ordinary computer stores information in bits, a quantum computer stores information in quantum bits—or qubits.

An ordinary bit can have a value of 0 or 1, but a quantum bit (thanks to the laws of quantum mechanics, which govern very small particles) can have a combination of both. If you imagine an ordinary bit as an arrow that can point either up or down, a qubit is an arrow that can point in any direction (or what is called a “superposition” of up and down).

This means a quantum computer would be much faster than an ordinary computer for certain kinds of calculations—particularly some to do with unpicking codes and simulating natural systems.

So far, so good. But it turns out that building real qubits and getting information in and out of them is extremely difficult, because interactions with the outside world can destroy the delicate quantum states inside.

Researchers have tried a lot of different technologies to make qubits, using things like atoms trapped in electric fields or eddies of current swirling in superconductors.

Microsoft has taken a very different approach to build its “topological qubits.” They have used what are called Majorana particles, first theorized in 1937 by Italian physicist Ettore Majorana.

Majoranas are not naturally occurring particles like electrons or protons. Instead, they only exist inside a rare kind of material called a topological superconductor (which requires advanced material design and must be cooled down to extremely low temperatures).

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