Job Description
Join Nexus Dynamics at the forefront of technological evolution as we pioneer quantum-integrated infrastructure for 2026. We're seeking a visionary Quantum Infrastructure Architect to design and implement next-generation systems that bridge classical computing with quantum capabilities. This role offers unparalleled opportunity to shape the digital landscape of tomorrow while working with Nobel Prize-winning researchers and cutting-edge hardware.
Our team operates at the intersection of theoretical physics and practical engineering, creating solutions that will redefine computational paradigms. You'll lead initiatives in quantum-safe cryptography, hybrid quantum-classical workflows, and scalable quantum network infrastructure. This position includes competitive equity packages, unlimited learning stipends, and the chance to work on projects with global impact.
Responsibilities
- Design and implement quantum-resistant cryptographic frameworks for enterprise systems
- Architect hybrid quantum-classical computing pipelines optimized for 2026-era workloads
- Lead development of quantum network topologies supporting global distributed computing
- Create fault-tolerant quantum error correction protocols for commercial applications
- Develop migration strategies for legacy systems to quantum-integrated architectures
- Establish quantum security standards across multi-cloud and hybrid environments
- Mentor cross-functional teams in quantum computing principles and implementation
Qualifications
- PhD in Quantum Computing, Physics, or Computer Science (or equivalent experience)
- 5+ years in infrastructure architecture with quantum or high-performance computing systems
- Expertise in quantum algorithms and quantum circuit optimization
- Proficiency with quantum programming languages (Q#, Qiskit, Cirq)
- Certification in quantum security protocols (e.g., Quantum Safe Security)
- Experience with distributed systems at petabyte-scale
- Published research in quantum information theory or related fields
- Strong background in topological quantum computing or superconducting qubits