Ren Adeyemi
Academy for Planetary and Quantum Inquiry
Short Bio
I study how quantum systems interact with environmental processes, exploring both theoretical and applied aspects of quantum thermodynamics and climate modeling. My work aims to link planetary-scale data with quantum computational frameworks that can simulate energy transfer, radiation balance, and atmospheric phenomena at high resolution.
Research Interests
- Quantum thermodynamics and open systems
- Energy modeling for planetary climates
- Quantum computation for environmental science
- Interdisciplinary modeling of complex systems
Short CV
- 2025–present: Research Fellow, Academy for Planetary and Quantum Inquiry
- 2022–2025: Graduate Research Assistant, Department of Quantum Systems, Nova University
- 2020–2022: MSc, Quantum Physics and Applied Mathematics, Nova University
Publications & Projects
- Adeyemi, R. (2025). “Quantum Radiative Models for Planetary Atmospheres.” Preprint, APQI.
- “Hybrid Simulation Frameworks for Quantum Climate Modeling” — ongoing project.
Abstract
My current project explores how entangled-state dynamics can inform radiative energy transport across planetary atmospheres. The aim is to create a scalable model that bridges quantum physics with Earth-system simulation, contributing to a new paradigm of quantum-informed environmental modeling.