At a Glance
- Tasks: Solve advanced physics problems and contribute to training next-gen AI systems.
- Company: Join micro1, a leading AI data lab transforming expertise into high-quality training data.
- Benefits: Earn $80 - $140/hour, work remotely, and engage in impactful projects.
- Other info: Flexible hours, collaborative environment, and opportunities for professional growth.
- Why this job: Shape the future of AI with your physics expertise and make a real difference.
- Qualifications: PhD or advanced-stage PhD candidacy in physics with strong research experience.
The predicted salary is between 140 - 140 Β£ per hour.
Physics Expert (Ph D / Postdoc) $80 - $140/hour pay Required Skills Physics Mastery Written Technical Communication Technical Problem-Solving Depth Mathematical Computational Fluency About micro1 micro1 is the leading AI data lab for training frontier models and evaluating AI agents.
Experts contribute their diverse subject matter knowledge across domains such as finance, healthcare, STEM engineering, and more. micro1 transforms that real-world expertise into high-quality training data, evaluations, and feedback loops that improve how AI systems learn, reason, and perform.
Our platform identifies and vets top talent through an AI recruiter, enabling high-quality expert contributions at scale.
We aim to enable 1 billion people to do meaningful work by applying their expertise to AI.
As our global expert network grows, micro1 is building the human intelligence layer for frontier AI.
- Role
- Title: Physics Expert (Ph D / Postdoc)
- Role
Type: Contractor.
Location: Remote micro1 is engaging Physics Experts (Ph D / Postdoc) to contribute deep scientific knowledge and problem-solving skills to a high-impact customer project.
In this role, you'll apply your expertise to help train next-generation AI systems.
Your work will shape how models learn, reason, and perform through high-quality, real-world input.
No prior experience in AI is required β your domain knowledge is what matters.
Scope of Work Solve advanced physics problems from your specialization, delivering rigorous, well-documented derivations and analyses.
Produce technically precise, clearly written solutions, detailing all assumptions, approximations, and final results using La Te X mathematical notation.
Utilize Sym Py, Python, and Jupyter for symbolic or numerical verification and clear computational workflows where relevant.
Identify and articulate subtleties in problem statements, including special cases, boundary conditions, and dimensional consistency.
Flag ambiguities in project materials, proposing well-reasoned interpretations and clarifications as needed.
Iterate on submitted solutions in response to feedback from project reviewers, ensuring corrections are cleanly integrated.
Uphold rigorous standards in documentation and reproducibility consistent with professional research practice.
Preferred Qualifications Ph D in physics or advanced-stage Ph D candidacy, with active research experience in a relevant subfield.
Research expertise in one or more of: High Energy Physics, Mathematical Physics, Biophysics, Statistical Physics, Condensed Matter (including moirΓ© systems, magnetism, PXP/Rydberg), AMO/Quantum Optics, Gravitation, Cosmology, Astrophysics, Quantum Information, or Optical Properties of Materials. 2β5 recent representative publications (past ~5 years) in your field, with accessible ar Xiv or DOI records.
Proficiency with La Te X for presenting mathematics, and with Sym Py, Python, and Jupyter for computational work; willingness to indicate areas for further support if needed.
Demonstrated excellence in written technical communication, with a track record of producing clear, precise, and well-argued scientific outputs.
Strong analytical skills, able to isolate key physical principles and provide nuanced solutions to complex problems.
Availability to engage with the project consistently over an 8β10 week period (approx. 10 hours/week).