Job Description
Join QuantumLeap Labs at the forefront of computational revolution as we pioneer the next generation of quantum systems. We're seeking visionary researchers to decode the mysteries of 2026-era quantum architectures and transform theoretical possibilities into tangible breakthroughs. Our interdisciplinary team collaborates with NASA, MIT, and IBM to develop scalable quantum solutions for climate modeling, drug discovery, and AI optimization.
Why QuantumLeap? We offer cutting-edge lab facilities, unparalleled R&D funding, and a culture where your curiosity fuels innovation. Shape the future of technology while working in our state-of-the-art San Francisco campus with flexible hybrid arrangements and competitive equity packages.
Responsibilities
- Design and implement quantum algorithms optimized for 2026-era hardware constraints
- Lead experimental validation of quantum supremacy claims in novel qubit architectures
- Develop error-correction protocols for fault-tolerant quantum computation
- Collaborate with hardware teams to co-design quantum-classical hybrid systems
- Publish breakthrough research in Nature Physics/Science and present at IEEE Quantum Week
- Secure $2M+ in DARPA/NASA grants for quantum computing initiatives
- Mentor PhD candidates in quantum information theory
Qualifications
- PhD in Quantum Computing, Physics, or Computer Science (or equivalent research experience)
- 3+ years hands-on experience with superconducting qubits or trapped-ion systems
- Publication record in top-tier quantum computing journals/conferences
- Expertise in quantum error correction and fault-tolerant architectures
- Proficiency in Qiskit, Cirq, or equivalent quantum programming frameworks
- Demonstrated ability to secure government research funding
- Strong background in condensed matter physics or quantum information theory
- Experience with cryogenic quantum measurement systems