Condensed Matter Physics
Investigating phase transitions, topological states, and emergent phenomena in quantum materials. Our work bridges theoretical models with computational simulations.
Research Domain
Physics
From condensed matter abstractions to quantum-inspired computation models. We explore the fundamental principles that govern physical systems and translate them into computational innovations.
Research Focus Areas
Quantum Computing
Developing quantum-inspired algorithms that leverage principles from quantum mechanics to solve classically intractable problems in optimization and simulation.
Statistical Mechanics
Applying statistical methods to complex systems, exploring thermodynamic limits, and developing efficient sampling techniques for high-dimensional spaces.
Computational Physics
Building fast, accurate numerical solvers for many-body systems. Focus on scalability, precision, and novel approaches to traditionally compute-intensive problems.
Current Projects
Inertial Field Solver
Fast, stable solvers for multi-body gravitational and inertial fields using novel numerical approaches.
Learn more →Quantum State Simulator
Efficient simulation of quantum states for validation of quantum algorithms on classical hardware.
Learn more →Publications & Research
Access our research papers and findings
Peer-reviewed publications, preprints, and technical reports from our physics research team.