Job Description
Join Nexus Labs at the forefront of 2026's technological revolution as we pioneer quantum-integrated user experiences. We seek a Quantum UX Researcher to decode human behavior in post-quantum computing environments, redefining interaction paradigms for next-gen neural interfaces and AI co-creation platforms. This role bridges quantum physics, cognitive science, and emerging interaction technologies to build intuitive interfaces that transcend current digital limitations.
You'll lead research initiatives in our Austin R&D hub, collaborating with quantum computing architects and neuroscientists to develop predictive user models for our flagship QuantumOS platform. The ideal candidate thrives at the intersection of hard science and human-centered design, transforming theoretical quantum phenomena into tangible user experiences.
Responsibilities
- Design and execute quantum UX research protocols using entanglement-based user testing methodologies
- Develop predictive cognitive models for quantum-computing interaction scenarios
- Lead cross-functional sprints with quantum hardware teams to optimize neural interface ergonomics
- Create dynamic user journey maps for post-quantum authentication and data security workflows
- Establish industry benchmarks for quantum-computing usability standards
- Present findings to C-suite executives and academic partners through immersive VR presentations
- Author whitepapers on quantum-human interaction paradigms for IEEE and ACM publications
Qualifications
- PhD in Cognitive Science, Human-Computer Interaction, or Quantum Physics (or equivalent experience)
- 5+ years in UX research with demonstrated work in emerging technologies
- Proficiency in quantum computing simulation environments (Qiskit, Cirq) and neuro-interfaces
- Published research in quantum cognition or human-quantum interaction
- Expertise in biometric and neural signal analysis using quantum-enhanced algorithms
- Experience leading international research teams in futuristic technology domains
- Deep understanding of post-quantum cryptography implications for UX design