Job Description
Join Nexus Quantum Labs at the forefront of technological revolution as we pioneer quantum computing solutions for the 2026 horizon. We're seeking a visionary Quantum Computing Architect to design next-gen quantum systems that will redefine computational boundaries. In this role, you'll collaborate with Nobel laureates and industry disruptors to architect scalable quantum frameworks, develop error-correction methodologies, and translate quantum algorithms into practical enterprise applications. Our Austin campus features state-of-the-art cryogenic labs and dedicated quantum simulators, providing an unparalleled environment for breakthrough innovation.
As a key member of our Future Technologies division, you'll shape the quantum computing roadmap for industries ranging from pharmaceutical discovery to climate modeling. We offer competitive equity packages, flexible hybrid work arrangements, and access to our exclusive Quantum Research Fellowship program. This is your opportunity to build the computational infrastructure that will power humanity's next great leap forward.
Responsibilities
- Design scalable quantum computing architectures optimized for 2026-era applications
- Develop quantum error-correction protocols for fault-tolerant systems
- Create hybrid quantum-classical computing frameworks for enterprise solutions
- Lead cross-disciplinary teams in quantum algorithm development and optimization
- Establish security protocols for quantum-resistant cryptography systems
- Translate theoretical quantum computing models into practical hardware specifications
- Conduct research on emerging quantum technologies (topological qubits, photonic computing)
Qualifications
- PhD in Quantum Physics, Computer Science, or related field (Master's with 8+ years experience considered)
- 3+ years experience designing quantum computing architectures or algorithms
- Expertise in quantum error correction and fault-tolerant systems
- Proficiency in quantum programming languages (Q#, Qiskit, Cirq)
- Deep understanding of quantum hardware platforms (superconducting, ion trap, photonic)
- Published research in peer-reviewed quantum computing journals
- Experience with high-performance computing and parallel processing
- Strong background in cryptography and quantum-resistant security protocols