Job Description
Join Nexus Labs at the forefront of quantum computing innovation as we prepare for the 2026 quantum revolution. We're seeking a visionary Research Lead to pioneer next-generation quantum algorithms and architectures that will redefine computational boundaries. This role offers unparalleled opportunities to shape the future of technology while collaborating with Nobel laureates and industry disruptors in our state-of-the-art downtown San Francisco facility.
As a key architect of our 2026 quantum roadmap, you'll drive breakthroughs in error correction, quantum supremacy, and hybrid quantum-classical systems. Our team operates with startup agility backed by Fortune 500 resources, ensuring your research translates into real-world impact. We offer competitive equity packages, unlimited learning stipends, and a culture where curiosity fuels innovation.
Responsibilities
- Lead quantum algorithm development for 2026-era applications in cryptography, optimization, and machine learning
- Architect scalable quantum computing architectures targeting 1000+ qubit systems
- Collaborate with hardware teams to design quantum processors with >99.9% fidelity
- Publish breakthrough research in top-tier journals and industry conferences
- Secure $5M+ in quantum computing grants and partnerships
- Mentor a team of 10+ quantum researchers and engineers
- Develop quantum security protocols for post-quantum cryptography transition
Qualifications
- PhD in Quantum Computing, Physics, or Computer Science with 5+ years industry experience
- Proven track record of publishing in Nature/Science or equivalent tier journals
- Expertise in quantum error correction codes and fault-tolerant architectures
- Proficiency with quantum programming frameworks (Qiskit, Cirq, Q#)
- Experience leading cross-functional research teams of 8+ members
- Strong background in at least one classical high-performance computing domain
- Demonstrated ability to secure federal research grants (NSF, DOE, DARPA)
- Published work in top quantum computing conferences (QIP, IEEE Quantum Week)