About
Quantum Meets brings together researchers, developers, and industry players to accelerate the transition from quantum research to real-world applications. The three-day program includes sessions on "Entering quantum's industrial era" and "Moving from lab to application: Dutch quantum sensing testbeds in practice”.
As quantum technologies mature, engineering challenges shift from proof-of-concept to robust, reproducible hardware. This requires tight integration of mechatronic design, thermal management, control engineering, software, and optical system integration. Our multidisciplinary teams combine these competencies to solve the hardware challenges that come with scaling quantum systems.
The challenges we solve
Magnetic shielding
Superconducting qubits, trapped ions, and NV centers require accurate control of electromagnetic fields to maximize coherence times. We specialize in active and passive shielding, from DC to AC to RF.Vacuum (UHV, XHV)
Trapped ion and neutral atom systems operate at 10⁻¹¹ - 10⁻¹³ mbar. Our vacuum system expertise includes design with outgassing sensitive components, often combined with cryogenic technology.Cryogenics & thermal control
In quantum systems, heat is noise. We design thermal control solutions from sub-Kelvin to tens of Kelvin, with low vibrations and optimized heat transfer.Positioning & alignment systems
Testing densely packed qubits requires precision positioning similar to the semiconductor industry. We develop systems with extreme accuracy for the world's biggest semicon OEMs.
Connect with us at Quantum Meets 2026
Want to discuss your quantum hardware challenges? Visit our stand during Quantum Meets Innovation on May 20. Find out more information on Quantum Meets here.
Recent highlight:
As quantum technologies move from lab to application, the challenge shifts to industrialization. Read how our decades of experience in semiconductors, big science, and aerospace help quantum companies take that next step.
Read the full article here: