Job Description
Join Nexus Labs at the forefront of 2026's technological revolution as we pioneer quantum computing interfaces for sustainable energy solutions. We're seeking a visionary Quantum UX Research Lead to transform complex quantum algorithms into intuitive human experiences. This role bridges the gap between quantum physicists and end-users, creating interfaces that democratize access to next-gen computational power. You'll lead cross-functional teams in Austin, TX, shaping how humanity interacts with quantum systems that will redefine energy optimization, climate modeling, and AI-driven sustainability by 2030.
Responsibilities
- Design and conduct immersive quantum UX research using neural interface prototypes and quantum simulation environments
- Develop predictive user behavior models for quantum computing interfaces using AI-driven analytics
- Collaborate with quantum physicists to translate complex algorithms into intuitive visual metaphors
- Lead sustainable UX design sprints focused on energy-efficient quantum interaction systems
- Establish quantum UX frameworks for emerging technologies including quantum cryptography and distributed quantum networks
- Mentor junior researchers in quantum UX methodologies and ethical design principles
- Present findings to C-suite executives and industry stakeholders at global tech forums
Qualifications
- 5+ years in UX research with demonstrated experience in emerging technologies (quantum computing, AR/VR, or AI interfaces)
- Expertise in neural interface design and biometric-responsive UX patterns
- PhD or Master's in Human-Computer Interaction, Cognitive Science, or Quantum Physics
- Portfolio showcasing quantum UX prototypes or next-gen interface designs
- Published research in quantum human-computer interaction or sustainable UX methodologies
- Certification in quantum computing fundamentals (e.g., IBM Quantum Experience)
- Experience leading cross-disciplinary teams across physics, engineering, and design domains
- Deep understanding of climate tech UX requirements and sustainable interaction principles