Job Description
Join the frontier of technological innovation at Nexus Future Labs, where we're engineering the quantum-powered future. We seek a visionary Quantum Computing Architect to design next-gen computational systems that will redefine industries by 2026. In this pivotal role, you'll lead the development of scalable quantum algorithms and hybrid quantum-classical frameworks while mentoring a world-class research team. You'll collaborate with Nobel laureates and industry pioneers to push the boundaries of computational physics and machine learning.
Our Austin headquarters features state-of-the-art quantum annealing facilities and offers unparalleled opportunities to shape the next wave of technological disruption. If you're passionate about solving humanity's most complex challenges through quantum innovation, we invite you to apply and help us build tomorrow's computational reality.
Responsibilities
- Design and implement fault-tolerant quantum computing architectures for commercial applications
- Develop hybrid quantum-classical machine learning pipelines for enterprise clients
- Lead quantum algorithm optimization for cryptography and materials science breakthroughs
- Collaborate with hardware teams to bridge quantum software-hardware integration
- Author peer-reviewed research publications and whitepapers on quantum supremacy
- Mentor junior quantum engineers and foster cross-functional innovation
- Partner with Fortune 500 clients to solve complex computational challenges
Qualifications
- PhD in Quantum Computing, Physics, or Computer Science (MS with exceptional experience considered)
- 5+ years of experience in quantum algorithm development and quantum circuit design
- Proficiency in quantum programming frameworks (Qiskit, Cirq, Q#)
- Deep understanding of quantum error correction and decoherence mitigation
- Published research in top-tier quantum computing conferences/journals
- Experience with high-performance computing environments and parallel programming
- Strong background in linear algebra, quantum mechanics, and computational complexity