Job Description
Join Nexus Dynamics at the forefront of technological evolution as we pioneer the quantum computing infrastructure that will define 2026. We seek a visionary Quantum Infrastructure Architect to design, implement, and secure next-generation quantum networks that will revolutionize industries from healthcare to finance. This role sits at the intersection of physics, computer science, and cybersecurity, offering unparalleled opportunities to shape the future of computational technology.
Our Austin-based innovation hub combines cutting-edge research with agile development practices, offering competitive benefits including equity participation and flexible work arrangements. You'll collaborate with Nobel laureates and industry disruptors in an environment that values intellectual curiosity and bold experimentation.
Responsibilities
- Design scalable quantum communication networks with <10ms latency across multi-site deployments
- Architect hybrid classical-quantum computing systems integrating photonic processors and superconducting qubits
- Develop quantum-safe cryptographic protocols resistant to Shor's algorithm attacks
- Lead implementation of quantum error correction codes achieving >99.9% fidelity
- Optimize quantum annealing workflows for real-world optimization problems
- Establish governance frameworks for quantum data sovereignty and ethical AI deployment
- Mentor cross-functional teams on quantum principles and practical applications
Qualifications
- PhD in Quantum Physics, Computer Science, or equivalent practical experience
- 5+ years designing fault-tolerant quantum systems or superconducting architectures
- Expertise in quantum machine learning algorithms and variational circuits
- Proficiency with Qiskit, Cirq, or equivalent quantum programming frameworks
- Deep understanding of quantum decoherence mitigation techniques
- Published research in top-tier quantum computing journals or conferences
- Experience with cloud quantum platforms (IBM Quantum, Amazon Braket, Azure Quantum)
- Strong background in topological quantum computing and Majorana fermion manipulation