Your work will center on open-system quantum dynamics under realistic hardware constraints. Utilizing differentiable simulators and physics-informed methods, you will design efficient control and measurement strategies, accelerate the optimization of quantum operations, and identify the most informative experiments for characterizing device behavior. \n
Responsibilities:At Alice & Bob you will:
• Advance optimal control strategies: Develop methods to improve the optimization of quantum gates and state-preparation protocols under realistic noise, dissipation, and hardware constraints.
• Explore RL-based control approaches: Formulate selected adaptive control or sequential experiment-design tasks as reinforcement learning problems, and evaluate when RL offers benefits over more structured physics-based methods.
• Design adaptive experiments: Build strategies that use measurement history and model uncertainty to choose the next most informative experiment or control setting.
• Study parameter sensitivity and identifiability: Leverage differentiable simulators and open-system models to understand which experiments best constrain key physical parameters.
• Support hardware integration: Account for practical constraints such as inference speed, transfer latency, and compilation time when designing methods for laboratory use.
• Cross-Functional Collaboration: Partner closely with physicists and ML researchers to interpret experimental data and translate complex physical requirements into robust software solutions.
Requirements:Currently pursuing a Master’s degree in Physics, Machine Learning, Applied Mathematics, or a closely related field (seeking a 5-6 month internship).
• Strong academic background in physics, optimization, mathematical modeling, or control.
• Fluency in English (both written and spoken).
• Strong proficiency in Python programming.
• Familiarity with modern tensor libraries such as PyTorch or JAX, and/or quantum frameworks such as Qiskit or Dynamiqs.
• Experience working with open quantum systems, quantum optics, or superconducting circuits.
• Interest in optimal control, reinforcement learning, parameter estimation or adaptive experiment design.
• Experience training models or running large-scale simulations on GPU clusters is a plus.
• A proactive, curious mindset with a desire to test algorithms on real-world, noisy hardware rather than just relying on ideal simulations.
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Benefits:
- 1 day off per month
- Half of transportation cost coverage (as per French law)
- Meal vouchers with Swile, as well as access to a fully equipped and regularly stocked kitchen
Research shows that women might feel hesitant to apply for this job if they don't match 100% of the job requirements listed. This list is a guide, and we'd love to receive your application even if you think you're only a partial match. We are looking to build teams that innovate, not just tick boxes on a job spec.
You will join of one of the most innovative startups in France at an early stage, to be part of a passionate and friendly team on its mission to build the first universal quantum computer!
We love to share and learn from one another, so you will be certain to innovate, develop new ideas, and have the space to grow.
