Job Description
Join Nexus Labs at the forefront of technological evolution as we pioneer quantum computing solutions for 2026 and beyond. We're seeking a visionary Quantum Computing Architect to design next-generation quantum systems that will redefine computational boundaries. This role combines deep technical expertise with strategic foresight to transform theoretical possibilities into tangible innovations.
As a key member of our Future Technologies Division, you'll collaborate with Nobel laureates, industry pioneers, and government agencies to develop quantum-resistant algorithms and scalable quantum processors. Your work will directly influence national security frameworks, pharmaceutical breakthroughs, and climate modeling initiatives.
We offer unparalleled resources, including a $50M R&D budget and access to the nation's most advanced quantum annealing facilities. This is your opportunity to shape the technological landscape of the next decade.
Responsibilities
- Design scalable quantum computing architectures for commercial and government applications
- Develop quantum-resistant encryption protocols for 2026 security standards
- Lead cross-functional teams of physicists, engineers, and data scientists
- Establish quantum computing benchmarks and performance metrics
- Partner with academic institutions to publish breakthrough research
- Drive quantum computing adoption in Fortune 500 enterprises
- Advise on quantum computing policy and ethical frameworks
Qualifications
- PhD in Quantum Physics, Computer Science, or related field (or equivalent experience)
- 5+ years experience in quantum algorithm development or quantum hardware design
- Expertise in quantum error correction and fault-tolerant systems
- Published research in peer-reviewed quantum computing journals
- Proficiency in quantum programming languages (Q#, Qiskit, Cirq)
- Experience with cloud-based quantum computing platforms
- Strong background in cryptography and cybersecurity principles
- Track record of translating theoretical concepts into practical implementations