Postdoctoral Research Associate
Other
other
31 Oct 2025
Richardson
Verified by Turrior
Content + Source + Freshness • 13 Dec 2025 • 95% confidence
78 / 100
Offer value
Moderate value primarily due to relevance in high-demand fields within academia and opportunities for collaboration, though may lack long-term stability.
- Opportunities for advanced research in physics
- Collaborative projects with real-world implications
- Involvement in cutting-edge computational research
- Requires niche expertise and temporary role
Pros
- Focused research opportunities in condensed matter theory
- Collaboration with leading academic and experimental groups
- Support for numerical and AI/ML techniques
Cons
- Temporary position with reliance on funding
- Ambiguity around future projects and stability
- Requires significant technical expertise in niche areas
Who it's for
Early Career / Postdoctoral • On-campus/In-person
Good fit
- Early-career physicists specializing in condensed matter
- Researchers interested in innovative computational techniques
- PhD holders looking to publish and collaborate
Not recommended for
- Candidates looking for long-term job security
- Individuals averse to niche research focuses
- Those without programming skills
Motivation fit
Desire for advanced research and theoretical discussionInterest in collaboration with cross-disciplinary teamsWillingness to explore new techniques in material science
Key skills
Condensed matter theory expertiseProgramming and numerical analysis capabilitiesResearch collaborationCommunication of complex ideas
Score: 78/100 AI verified analysis
About the job
Posting Number: S06697P
Job Description:
A position is available for a postdoctoral researcher in condensed matter theory in the lab of Yves Kwan in the Department of Physics at the University of Texas at Dallas.
Areas of interest in our lab include, but are not limited to: fractionalization (e.g. fractional Chern insulators and fractional topological insulators); unconventional superconductivity; exotic phenomena in 2D materials, including engineered systems such as moiré and beyond-moiré heterostructures; connections between quantum information science and quantum matter; far-from-equilibrium quantum many-body systems.
The position will involve the study of strongly-interacting condensed matter and quantum systems, broadly construed. The successful candidate is expected to be proficient in analytical and/or computational approaches to quantum many-body systems. The position offers opportunities to collaborate with other theoretical and experimental groups, both at UT Dallas and beyond. Experience with numerical techniques such as tensor networks, quantum Monte Carlo, ab initio calculations, and AI/ML is a plus.
