There’s a type of particle called a Majorana fermion that was hypothesized in 1937. This particle has some unique properties, and it’s long been theorized that Majorana particles could prove useful for quantum computing. In a surprise announcement on Wednesday, Microsoft (NASDAQ: MSFT) unveiled a quantum-computing chip, Majorana 1, that successfully harnesses a small number of exotic Majorana particles to encode quantum information.
Microsoft started going down this road nearly 20 years ago, and that research has now yielded what looks like a significant quantum-computing breakthrough. The Majorana 1 chip contains eight qubits, or quantum bits, far fewer than top-tier quantum computers currently in operation.
However, Microsoft sees a path to scale up the number of qubits to 1 million. At that scale, quantum computing would likely be useful for solving real-world problems.
One of the major roadblocks preventing quantum computers from scaling is error correction. Qubits are fragile and can be compromised by various environmental factors. This introduces errors, which can derail a computation before completion. A future quantum computer capable of useful calculations will need a way to correct those errors.
A benefit of the Majorana particles that Microsoft has harnessed is that they tend to be more stable and less susceptible to errors than other approaches to quantum computing. Errors are still introduced, and that will need to be overcome to scale up the chip to 1 million qubits.
The process of measuring the system introduces errors, for example, but Microsoft has already identified ways to reduce these errors. The company is also working on new methods of error correction that will be necessary to boost the qubit count.
What Microsoft has successfully done is demonstrate that quantum information can be encoded using Majorana particles. The next step is to start working toward a quantum chip that’s useful.
Microsoft will start with a single-qubit device and build up to devices with larger arrays of qubits, quantum error detection, and eventually, quantum error correction. The property of Majorana particles that tends to protect quantum information will make error correction a simpler affair than previous approaches.
“Microsoft intends to build a fault-tolerant prototype based on topological qubits in years, not decades,” reads a Microsoft Azure blog post detailing the Majorana 1 chip. There are two things for investors to understand.
First, there’s no telling what complications and issues Microsoft could run into as it works toward quantum error correction with its new quantum-computing technology. “To be clear, continuing to refine those processes and getting all the elements to work together at accelerated scale will require more years of engineering work,” Microsoft noted in a separate news release.
