Job Description
Join NeuroSync Technologies at the forefront of human-computer symbiosis. As our Quantum UX Architect 2026, you'll redefine digital experiences by merging quantum computing principles with neural interface design. This senior role pioneers next-generation interaction paradigms for our flagship NeuroLink platform, transforming how humanity connects with technology. You'll lead a cross-disciplinary team of neuroscientists, quantum engineers, and creative technologists to build interfaces that anticipate needs before they arise.
We offer equity packages, unlimited learning stipends, and a state-of-the-art neuro-ergonomic workspace in Austin's innovation district. Your work will directly shape the 2026 digital landscape while accelerating NeuroSync's mission to achieve seamless human-AI integration.
Responsibilities
- Architect quantum-optimized neural interfaces using QML frameworks for real-time cognitive pattern recognition
- Lead prototyping of next-gen holographic UX systems with sub-5ms response latency
- Develop predictive interaction models using generative adversarial networks trained on neural data
- Collaborate with quantum hardware teams to co-design low-latency sensory feedback systems
- Establish ethical frameworks for neuro-UX design and quantum data privacy protocols
- Mentor junior architects in quantum computing principles and cognitive interface theory
- Present quarterly innovation roadmaps to executive stakeholders and venture partners
Qualifications
- 8+ years in UX architecture with 3+ years in emerging tech (quantum/neural interfaces)
- Portfolio demonstrating shipped quantum or neuro-interactive systems
- Expertise in Qiskit, Cirq, or equivalent quantum programming frameworks
- PhD in Cognitive Science, Human-Computer Interaction, or Quantum Information Theory
- Published research in ACM CHI or Nature Quantum Information
- Proficiency in neuro-SDKs (OpenBCI, Emotiv) and quantum cloud platforms (IBM Q, Rigetti)
- Strong background in ISO 9241-210:2019 for human-centered quantum systems