Job Description
Step into 2026 with Nexus Future Labs, where we're pioneering quantum computing breakthroughs that will redefine tomorrow's technological landscape. We seek a visionary Quantum Computing Research Scientist to join our elite innovation hub in San Francisco. As a key architect of our 2026 quantum roadmap, you'll collaborate with Nobel laureates and industry disruptors to develop next-gen algorithms, error-correction protocols, and quantum machine learning frameworks. Your work will directly impact global industries—from pharmaceuticals to finance—by solving previously insurmountable computational challenges. We offer unparalleled resources, including access to our 512-qubit quantum annealer and dedicated R&D budget. Join us to accelerate humanity's quantum leap.
Responsibilities
- Design and implement quantum algorithms for optimization problems and machine learning applications
- Develop novel error-correction techniques to enhance qubit stability and coherence times
- Lead cross-functional research initiatives with materials science and AI teams
- Author peer-reviewed publications and patentable quantum computing methodologies
- Mentor junior researchers and contribute to our quantum curriculum development
- Collaborate with industry partners to deploy quantum solutions in real-world scenarios
- Stay ahead of emerging quantum standards and regulatory frameworks post-2026
Qualifications
- PhD in Quantum Physics, Computer Science, or related field (or equivalent research experience)
- 3+ years hands-on experience with quantum programming (Q#, Qiskit, or Cirq)
- Published research in quantum computing or quantum information theory
- Deep understanding of quantum mechanics principles and quantum circuit design
- Expertise in high-performance computing and parallel processing architectures
- Proven ability to translate complex quantum concepts into practical applications
- Strong background in machine learning and classical optimization algorithms
- Experience with cryogenic systems and quantum hardware interfaces preferred