Quantum technologies and advanced computing

We are pioneering energy-efficient computing solutions, from quantum and cryogenic systems to novel optical and fluorescent memory technologies.

The rapid growth of digital technologies has created an urgent need for more energy-efficient and sustainable computing systems. At Paihau—Robinson Research Institute, we are developing advanced materials and devices to power the next generation of computing, including quantum and cryogenic systems that deliver transformative improvements in performance and energy use.

Our research spans emerging technologies—from rare-earth nitride-based cryogenic memory to novel optical computing methods and fluorescent memory systems. These projects address critical global challenges: the development of scalable quantum computers, the high power demands of modern data centres and the physical limits of silicon-based devices.

Robinson’s work sits at the intersection of superconductivity, magnetism, photonics, and quantum science. While some projects are directly linked to quantum computing, others explore complementary or alternative pathways to low-power, high-performance computing, all contributing to a broader vision for future technologies.

This research aligns with national and international priorities, including the global recognition of 2025 as the International Year of Quantum Science and Technology, which is a great boost to the true success of our research. Supported by agencies such as the Ministry of Business, Innovation and Employment (MBIE), and in collaboration with partners across Aotearoa New Zealand and internationally, our team is helping shape a more energy-conscious digital future.