Microsoft announces quantum computing breakthrough with new Majorana 1 chip
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Microsoft Unveils Breakthrough Quantum Chip Amid Skepticism
Above: A logo sits illuminated outside the Microsoft booth at ISE 2025 on Feb. 4, 2025 in Barcelona, Spain. Image copyright: Cesc Maymo/Getty Images News via Getty Images
The Facts
Microsoft on Wednesday revealed Majorana 1 — a quantum processor powered by a new Topological Core architecture — that uses a breakthrough material to create and control Majorana particles, producing more reliable qubits.
The chip contains eight topological qubits and Microsoft claims it has developed a clear path to scale up to 1M qubits on a single palm-sized chip, which would be sufficient to solve meaningful industrial-scale problems.
The development comes after nearly two decades of research and relies on a unique approach using the Majorana fermion particle, which Microsoft says makes the qubits less prone to errors that plague quantum computers.
The Spin
Narrative A
Microsoft's breakthrough topological quantum bits hold the potential to revolutionize quantum computing. By generating special patterns called Majorana quasiparticles in nanowires, they've developed qubits that could be far more stable than conventional approaches. While competitors like IBM have more qubits, Microsoft's method requires far fewer for error correction. This milestone could pave the way for practical quantum computers.
Narrative B
Microsoft claims to have created topological qubits, but has raised eyebrows by announcing this milestone without releasing detailed evidence. Although publishing intermediate results in Nature, the crucial proof of actual qubit creation remains private, shared only with select specialists. Some researchers are deeply skeptical, with some physicists characterizing the entire approach as fundamentally flawed.