Imec and Xanadu Develop Photonic Qubits For Quantum Computing


Imec and Xanadu partners to develop photonic qubits with SiN waveguide for quantum computing.

Photonics find its application in a wide range of applications including quantum computers. Quantum computers use photons produced by lasers or diodes for computation. Photons promise to allow a higher bandwidth than the electrons used in conventional or classical computers. Photons allow for easy-to-network quantum computers operating at room temperature.

Xanadu, in partnership with Imec, announced plans to develop photonic qubits based on Silicon nitride (SiN) waveguides. 

In quantum computing, a qubit or a quantum bit is the basic unit of quantum information. The photonic qubits are based on squeezed states – a type of light generated by chip-integrated silicon photonic devices.

“Xanadu’s ultimate mission is to build quantum computers that are useful and available to people everywhere,” says Xanadu founder and CEO Christian Weedbrook, “to do this we have the ambitious goal of reaching one million qubits using photonics.”

The approach offers the benefits of scalability to one million qubits via optical networking, room temperature computation and the ability to leverage Imec’s fab.

The Imec SiN photonics process was developed for communications. But here, it enables the generation of squeezed states, which replace single photons as the basic resource for synthesizing qubits. When it was implemented in Xanadu’s architecture, it offered a more promising path to fault-tolerant quantum computing. 


 





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