Job Description
Join Nexus Labs at the forefront of human-computer interaction evolution. We're seeking a visionary Quantum UX Research Lead to pioneer next-generation user experiences for 2026 and beyond. This role bridges quantum computing interfaces, neural UX analytics, and anticipatory design systems. You'll architect research frameworks that decode subconscious user behaviors and shape products before markets exist.
Our Austin hub operates at the intersection of neuroscience, AI ethics, and spatial computing. You'll lead a cross-disciplinary team of quantum UX specialists, neuroscientists, and AI ethicists to create empathetic, intuitive interfaces that redefine human-machine symbiosis. This is your opportunity to define the UX paradigm for the 2020s.
Responsibilities
- Design and execute quantum UX research protocols using neural mapping and predictive behavioral analytics
- Lead cross-functional teams in developing anticipatory interface prototypes for 2026 market readiness
- Architect ethical AI-driven user feedback systems that preempt cognitive friction
- Pioneer neuro-UX methodologies to decode subconscious interaction patterns
- Establish industry standards for quantum user experience measurement and validation
- Collaborate with quantum computing teams to translate qubit operations into intuitive visual metaphors
- Present research findings to C-suite stakeholders and product boards with strategic impact
Qualifications
- PhD or MS in Cognitive Science, Human-Computer Interaction, or Quantum UX with 8+ years experience
- Expertise in neural interface research and quantum UX measurement frameworks
- Proven track record of launching anticipatory UX systems for emerging technologies
- Deep understanding of quantum computing principles and their UX implications
- Mastery of neuro-UX tools (EEG integration, eye-tracking 3.0, biometric sentiment analysis)
- Published research in quantum UX or neuro-interaction design in top-tier journals
- Experience leading cross-disciplinary teams with neuroscientists and quantum physicists