Job Description
Join Nexus Quantum Labs at the forefront of technological revolution as we pioneer quantum computing solutions for 2026 and beyond. We're seeking a visionary Research Scientist to develop groundbreaking quantum algorithms and accelerate commercial applications in cryptography, materials science, and AI optimization. Our state-of-the-art facility in San Francisco offers unparalleled resources for quantum experimentation, including 128-qubit processors and cryogenic systems.
As a key member of our Future Technologies Division, you'll collaborate with Nobel laureates and industry disruptors to translate theoretical quantum mechanics into practical innovations that will redefine global industries. We offer competitive equity packages, flexible hybrid work arrangements, and access to our exclusive Quantum Innovation Accelerator program.
Responsibilities
- Design and implement novel quantum algorithms for optimization and simulation problems
- Lead experimental validation of quantum circuits on superconducting and ion-trap platforms
- Develop error correction protocols for fault-tolerant quantum computation
- Collaborate with cross-functional teams to integrate quantum solutions into classical systems
- Publish breakthrough research in peer-reviewed journals and industry whitepapers
- Secure federal and private research funding through grant proposals
- Mentor junior researchers and contribute to quantum education initiatives
Qualifications
- PhD in Quantum Physics, Computer Science, or related field (or equivalent industry experience)
- 3+ years of hands-on quantum algorithm development or quantum hardware experience
- Proficiency in quantum programming languages (Q#, Qiskit, Cirq)
- Strong background in linear algebra, quantum mechanics, and complexity theory
- Publication record in quantum computing or high-energy physics
- Familiarity with quantum error correction and fault-tolerance techniques
- Experience with superconducting qubit manipulation or trapped-ion systems
- Demonstrated ability to translate theoretical concepts into experimental protocols