As the quantum technology landscape continues to evolve, the need for advanced cryogenic solutions becomes increasingly crucial. This paper presents Thales innovative products and strategic roadmap aimed at enhancing the capabilities of quantum applications through cryogenics on a range of temperatures (between 2 K to 80 K). We detail Thales state-of-the-art cryogenic technologies, including systems designed for cooling quantum processors, sensors, and other critical components, demonstrating their potential to optimize performance and stability in quantum systems. Furthermore, we outline our vision for the future of cryogenics within quantum technology, highlighting ongoing research initiatives, collaboration efforts, and upcoming product developments. Through a comprehensive analysis of market needs and technological advancements, we emphasize Thales commitment to addressing the challenges of cooling and maintaining quantum coherence.

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Thales’ Roadmap and Product Innovations in Cryogenics for Quantum Applications

  • Christophe Vasse,
  • Garmt de Jonge,
  • Emilien Durupt,
  • Florian Dupe,
  • Daniel Willems

摘要

As the quantum technology landscape continues to evolve, the need for advanced cryogenic solutions becomes increasingly crucial. This paper presents Thales innovative products and strategic roadmap aimed at enhancing the capabilities of quantum applications through cryogenics on a range of temperatures (between 2 K to 80 K). We detail Thales state-of-the-art cryogenic technologies, including systems designed for cooling quantum processors, sensors, and other critical components, demonstrating their potential to optimize performance and stability in quantum systems. Furthermore, we outline our vision for the future of cryogenics within quantum technology, highlighting ongoing research initiatives, collaboration efforts, and upcoming product developments. Through a comprehensive analysis of market needs and technological advancements, we emphasize Thales commitment to addressing the challenges of cooling and maintaining quantum coherence.