JUNIQ Adds ARQUE Systems’ Scalable Semiconductor-Based Quantum Computer

Quantum chips with shuttle tracks (image above) could be manufactured industrially on 200 mm silicon wafers.
Credit score:: Jülich Analysis Heart

The Jülich Research Center has partnered with ARQUE Systems to combine a cutting-edge quantum laptop into the Jülich Unified Infrastructure for Quantum Computing (JUNIQ) on the Jülich Supercomputing Center (JSC) in 2025. The system encompasses a 5-qubit semiconductor-based quantum processor designed for scalability, probably increasing to lots of of qubits sooner or later.

ARQUE’s strategy leverages transistor-like semiconductor qubits that encode info within the electron spin. This expertise advantages from current semiconductor manufacturing methods, enabling industrial-scale manufacturing on 200 mm silicon wafers. The processor structure incorporates “shuttle tracks,” permitting electron motion throughout micrometer distances with out info loss. This innovation helps the development of multi-million qubit chips inside a compact footprint whereas integrating management electronics.

Collaborating with the Helmholtz Nano Facility and Infineon Dresden, ARQUE Programs has developed a patented quantum processor structure, beforehand detailed in Nature Communications. This design may revolutionize quantum scalability by decreasing the bodily useful resource necessities for error correction.

The JUNIQ platform gives a hybrid HPC surroundings, combining quantum programs with supercomputers to discover purposes in industrial optimization, cryptography, and basic sciences like physics and supplies analysis. ARQUE’s processor will contribute to advancing each sensible and theoretical quantum purposes.

For extra on ARQUE’s expertise, go to their publication in Nature Communications here and a press launch here.

December 23, 2024

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