Quantum Control Engineer/Physicist – Quantum Sensing
- San Cristóbal de La Laguna, Islas Canarias
- Permanente
- Tiempo completo
- Pulse Sequence Design & Optimization: Develop and implement microwave and optical pulse protocols (e.g., T1, Rabi, spin echo, dynamical decoupling) to control NV spin states with high precision.
- Feedback & Calibration Development: Build real-time feedback loops and calibration routines to maintain NV coherence, suppress noise, and stabilize sensor performance.
- Firmware & Control Software: Write and integrate control code (e.g., in Python) for timing, sequencing, and instrumentation bridging hardware (AWGs, MW generators) with experimental protocols.
- Characterization of Control Systems: Measure system performance (e.g., coherence times, fidelity, sensitivity) and refine control strategies using diagnostics and simulations and analyze experimental results to compare them against theoretical predictions and models.
- Hardware Integration: Collaborate with optical and electronics teams to ensure precise implementation of control protocols within compact NV sensor modules.
- Cross-Disciplinary Collaboration: Work closely with quantum physicists, optical engineers, and firmware developers to align control strategies with overall system goals and project milestones.
- Master’s or PhD degree in Quantum Physics, Electrical Engineer, Applied Physics, or related field with working experience.
- Experience designing and implementing quantum control protocols (e.g., pulsed spin control, feedback systems).
- Proficiency in programming control software (Python, or equivalent).
- Skilled in designing experiments and real-time control hardware with tight timing and low-latency requirements.
- Deep understanding of quantum dynamics, including spin manipulation via microwave fields, optical pumping, and spin decoherence mechanisms, familiarity with NV centers preferred.
- Personal Skills:
- Excellent problem-solving and debugging orientation, especially in complex, multidisciplinary experimental systems.
- Strong communication and collaboration skills, and comfortable working in multidisciplinary team.
- Eagerness to learn and adapt to new experimental methods and quantum control technologies.
- Organized, detail-focused, and capable of managing control algorithms, instrumentation, and versioned software effectively.
- Self-driven, proactive, and committed to high-quality results in fast-paced R&D environments.
- Familiarity with quantum measurement and noise mitigation techniques (e.g., dynamical decoupling, composite pulses).
- Experience with hardware platforms such as AWGs, FPGA-based controllers, and timing synchronization systems.
- Ability to model and simulate control sequences to optimize system performance (e.g., via quantum optimal control methods).
- Strong analytical skills and documentation capability for maintaining reproducible and transparent control workflows.