Job Description
Join the quantum revolution at Nexus Quantum Labs, where we're pioneering the next frontier of computational power in 2026. We're seeking a visionary Quantum Computing Architect to design and implement scalable quantum systems that will transform industries. In this role, you'll collaborate with Nobel laureates and cutting-edge researchers to develop fault-tolerant quantum processors, hybrid quantum-classical algorithms, and secure quantum communication protocols. Our state-of-the-art lab in San Francisco offers unparalleled resources, including access to quantum annealers, superconducting qubits, and photonic processors. We offer competitive equity packages, flexible work arrangements, and opportunities to shape the future of technology.
Responsibilities
- Design and implement fault-tolerant quantum computing architectures using superconducting qubits and topological systems
- Develop hybrid quantum-classical algorithms for optimization problems in finance, logistics, and drug discovery
- Lead quantum security protocols including QKD (Quantum Key Distribution) and post-quantum cryptography implementations
- Collaborate with hardware teams to optimize quantum error correction codes and gate operations
- Create quantum software development frameworks accessible to enterprise developers
- Publish research in Nature/Science journals and present at IEEE Quantum Week conferences
- Mentor junior quantum engineers and establish industry standards for quantum computing interfaces
Qualifications
- PhD in Quantum Physics, Computer Science, or Electrical Engineering with 5+ years quantum computing experience
- Expertise in quantum algorithms (Shor's, Grover's, VQE) and quantum error correction codes (surface codes, color codes)
- Proficiency with quantum programming frameworks (Qiskit, Cirq, PennyLane) and classical HPC systems
- Published research in quantum computing or related fields in top-tier journals/conferences
- Experience with quantum hardware platforms (IBM Quantum, Rigetti, IonQ) and cryogenic systems
- Strong background in linear algebra, group theory, and complex analysis
- Ability to translate complex quantum concepts into practical enterprise solutions
- Certification in quantum computing from recognized institutions (e.g., MIT xPRO, IBM Quantum Network)