Linde Engineering Delivers Cryogenic Plant Enabling World’s First Utility-Scale Quantum Computer in Australia

Linde Engineering has signed an agreement with PsiQuantum to deliver a large cryogenic cooling plant for the world’s first utility-scale quantum computer, located in Brisbane, Queensland, Australia. The plant will operate at 4 Kelvin (-269°C/-452°F), cooling cryogenic cabinets housing PsiQuantum’s Omega chipset and enabling reliable qubit operation. This collaboration advances quantum computing capabilities, with potential applications in healthcare, energy, material design, and encryption, while contributing to Australia’s growing quantum ecosystem. Linde Engineering, with extensive experience in cryogenic systems, will provide the infrastructure necessary for this ambitious project, underscoring its expertise in supporting cutting-edge technologies.

Linde Engineering has entered into an agreement with PsiQuantum to supply a large cryogenic plant for their upcoming utility-scale quantum computer project in Brisbane, Australia. This plant will be one of the largest ever constructed specifically for quantum computing, designed to maintain temperatures as low as 4 Kelvin (-269°C or -452°F). Such extreme cooling is essential to ensure the reliable operation of qubits, which are highly sensitive to environmental factors like heat and electromagnetic radiation.

The cryogenic plant will support PsiQuantum’s new Omega chipset, enabling their quantum computer to achieve unprecedented scale. Linde Engineering brings extensive expertise in cryogenic technology, having installed over 500 such plants globally across various high-tech sectors. This experience is critical for the success of PsiQuantum’s project, as maintaining precise low temperatures is vital for qubit functionality.

This collaboration underscores the potential of quantum computing to drive advancements in healthcare, energy, and encryption. PsiQuantum’s use of photonic chips offers a significant advantage, as these systems can operate at higher temperatures compared to traditional matter-based qubits, facilitating scalability and rapid progress toward utility-scale quantum computing solutions.

Cryogenic Cooling Technology Enables Quantum Computing

The cryogenic cooling plant supplied by Linde Engineering will play a critical role in maintaining the operational integrity of PsiQuantum’s quantum computer. The plant is designed to support tens of thousands of photonic chips, which operate at higher temperatures than traditional matter-based qubits, reducing complexity and energy consumption.

Linde Engineering’s expertise in cryogenic technology is pivotal to this project. With over 500 installations globally across diverse high-tech sectors, Linde has demonstrated unparalleled capability in designing systems that maintain precise low temperatures essential for qubit stability. The plant includes advanced insulation and cooling mechanisms to ensure stable temperatures, critical for enabling large-scale quantum operations.

This innovative approach not only simplifies cryogenic management but also accelerates progress toward achieving utility-scale quantum computing. By enabling higher operational temperatures, Linde’s technology reduces the challenges in maintaining large-scale quantum systems, making it a cornerstone for advancing applications across industries such as healthcare and energy.

Linde Engineering’s Role in Advancing Industrial Applications

Linde Engineering’s extensive experience in cryogenic technology is pivotal to PsiQuantum’s quantum computing project. With over 500 installations globally across diverse high-tech sectors, Linde brings unparalleled expertise in designing systems that maintain precise low temperatures essential for qubit stability.

The cryogenic plant engineered by Linde is specifically tailored to support PsiQuantum’s photonic chips. These chips operate at higher temperatures than traditional matter-based qubits, reducing the complexity and energy consumption typically associated with quantum computing infrastructure. The plant efficiently cools tens of thousands of photonic chips within cryogenic cabinets, ensuring minimal thermal fluctuations that could disrupt operations.

This innovative approach simplifies cryogenic management while accelerating progress toward utility-scale quantum computing. By enabling higher operational temperatures, Linde’s technology reduces the challenges in maintaining large-scale quantum systems, making it a cornerstone for advancing applications across industries such as healthcare and energy.