Job Description
Join Nexus Labs at the forefront of quantum computing evolution. We're pioneering next-gen infrastructure to power breakthroughs by 2026, transforming industries from healthcare to climate modeling. This role demands visionary engineering to build scalable, fault-tolerant quantum systems that redefine computational boundaries.
You'll architect hybrid quantum-classical architectures, optimize cryogenic systems, and develop error-correction protocols that push beyond theoretical limits. If you thrive at the intersection of physics, AI, and scalable infrastructure, this is your chance to shape the technological landscape of tomorrow.
Responsibilities
- Design and deploy quantum annealing systems with >10,000 qubit coherence
- Develop cryogenic control systems operating at <20mK temperatures
- Implement quantum error correction codes for fault-tolerant operations
- Create hybrid quantum-classical computing workflows using Qiskit/Cirq
- Optimize quantum network protocols for distributed computing
- Lead integration of quantum accelerators into HPC environments
- Document quantum system specifications and performance metrics
Qualifications
- PhD in Quantum Physics/Computer Science or equivalent experience
- 5+ years in cryogenic engineering or quantum hardware development
- Proficiency in quantum programming languages (Q#, Quil, or Qiskit)
- Experience with superconducting qubit architectures
- Expertise in ML/AI for quantum system optimization
- Published research in quantum error correction or fault tolerance
- Strong background in Linux systems and low-level programming