Quantum Systems Modeling AI Engineer or Academic Research employee

What you'll work on

Your work will be essential to exploring large design spaces, predicting device behavior, and identify optimal parameters without the prohibitive cost of fabricating numerous physical prototypes.

You will work at the interface of AI and photonic-, semiconducting-, and superconducting quantum hardware. Your work will span across materials, sub-component, and system levels modelling to build a powerful feedback loop where experimental results continuously refine the virtual models, while the models guide the next generation of experiments and device designs.

What we're looking for

• Development of a full stack framework for digital twins of quantum devices.
• Work in tight collaboration with both theoretical and experimental groups to refine virtual models based on results from both NQCP and Quantum Foundry Copenhagen.
• Multiphysics Integration: Develop digital twins that integrate quantum mechanical modeling (spin-orbit coupling, hyperfine interactions, quantum materials modelling) with electrostatic, electromagnetic, mechanical, and thermal simulations.
• Development of AI surrogate models to enable faster and larger scale simulations to enable faster turnaround on chip design and calibration.

About You

We are looking for a person who thrives at the intersection of hardware physics and AI-driven design. You should be motivated by the challenge of managing the interplay between quantum physics and classical hardware engineering to accelerate the path to scalable quantum technologies.

• Education: Master’s or PhD in Physics, Photonics, Electrical Engineering, Computer Science, or a related field
• Simulation Expertise: Proven experience with finite element method (FEM) simulations using software such as COMSOL, Ansys, Lumerical, or Sonnet
• Experience with electronic design automation (EDA) tools
• Experience working with ab-initio methods for materials simulation e.g. Density Functional Theory (DFT)
• Experience working with large collaborative code projects
• Proficiency in applying AI-driven algorithms (e.g., neural networks, reinforcement learning) for the creation of surrogate models and the autonomous optimization of high-dimensional design spaces
• Experience simulating hybrid quantum devices
• Communication: Strong ability to coordinate work within a complex research program and communicate insights to experimentalists.

Why Us?

We offer the opportunity to be part of a thriving quantum ecosystem in Copenhagen, interacting with international collaborators and startups.

• Danish Work Culture: Our environment is egalitarian and prioritises work-life balance.
• Social Support: Life in Denmark includes universal healthcare, paid parental leave, and excellent public infrastructure.
• Professional Growth: You will contribute to the "pathfinder phase" (2025–2029) of a world-leading quantum program, setting the stage for the full scaling phase (2030–2035).