Sept. 23, 2024 — Diraq, a global leader in quantum computing based on silicon CMOS quantum dots, continues to drive new innovations in the field of scalable quantum computing. In research led by Ingvild Hansen, a PhD student at UNSW, and Diraq and supervised by Henry Yang, the work detailed how researchers can drive qubits simultaneously and perform two-qubit logic using the same global driving microwave field.
Diraq is reporting the development of a method to ensure sustainable performance for a large number of qubits to operate in synch. The findings, Entangling gates on degenerate spin qubits dressed by a global field, were published recently in Nature Communications.
This type of global control is essential for managing the fragility of qubits while also satisfying the requirements for scalability – allowing for the operation of millions of silicon qubits in an energy and resource-efficient manner, minimising the size and cost of fault tolerant computersConsistent and repeatable performance is also key to the underlying integrity and capability of multi-qubit systems.
Significantly, these findings highlight how a technique known as qubit ‘dressing’ can overcome the fragility of entangling gates between superposition states and increase their robustness to noise. Additional advantages include reduced control bandwidth and reduced control signal interference. Diraq researchers noted that advanced microwave engineering will be important to produce a stronger and more uniform global magnetic field, an important aspect of this work going forward.
Diraq CEO and Founder, Andrew Dzurak commented, “The results of this research represent a crucial advance in qubit control and confirm that our silicon CMOS qubit technology can overcome frequency crowding in large-scale quantum computing systems. It further supports Diraq’s leading capability in the development of a reliable global qubit control strategy for semiconductor spin qubits – essential for scalable and fault-tolerant quantum computing.”
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About Diraq
Diraq is a global leader in building quantum processors using silicon ‘quantum dot’ technology, leveraging proprietary technology developed over 20 years of research and with over US $135 million in funding that has generated 11 patent families. Its approach relies on the existing silicon manufacturing processes, known as CMOS, used by foundries to produce today’s semiconductor components, forging a faster and cheaper road to market. Diraq’s goal is to revolutionize quantum computing by driving qubit numbers on a single chip to the many millions, and ultimately billions needed for useful commercial applications.
Source: Diraq