Job Description
Join Nexus Dynamics at the forefront of technological revolution as we pioneer quantum computing solutions for 2026. We're seeking a visionary Quantum Computing Architect to design next-gen systems that will redefine industries. You'll lead the development of fault-tolerant quantum processors and hybrid quantum-classical frameworks in our state-of-the-art Austin R&D center. Collaborate with Nobel laureates and industry disruptors to transform theoretical breakthroughs into scalable commercial applications.
Why Nexus Dynamics? Our Austin campus features quantum labs cooled to absolute zero, on-site cryogenic engineering teams, and unparalleled access to IBM's quantum network. We offer equity grants, unlimited learning stipends, and flexible remote work options.
Responsibilities
- Design and implement fault-tolerant quantum computing architectures using superconducting qubits and topological quantum systems
- Develop hybrid quantum-classical algorithms for optimization problems in finance, logistics, and pharmaceuticals
- Lead cross-functional teams of physicists, engineers, and software developers in quantum circuit design
- Establish quantum error correction protocols achieving >99.9% fidelity for commercial applications
- Create roadmaps for quantum advantage in machine learning and cryptography post-2025
- Partner with academic institutions to publish breakthrough research in Nature/Science journals
- Secure $10M+ in quantum computing grants and partnerships with DARPA and NSF
Qualifications
- PhD in Quantum Physics, Computer Science, or Electrical Engineering with 5+ years industry experience
- Published research in quantum error correction or topological quantum computing
- Proficiency in quantum programming languages (Qiskit, Cirq, Q#) and classical HPC frameworks
- Expertise in cryogenic engineering and quantum control systems
- Track record of leading quantum computing projects with measurable commercial impact
- Security clearance eligibility for government quantum initiatives
- Experience with quantum annealing systems (D-Wave, Rigetti) and photonic quantum processors