Research Topics
Quantum PHYSICS
Quantum Thermodynamics & Ultracold Gases
Developing models for modern quantum systems, from finite-time quantum information and thermodynamics to interfacial phenomena in Bose–Einstein condensates.
Non-equilibrium statistical physics
Stochastic Thermodynamics
Developing trajectory-level formulations of work, heat, and entropy production in driven mesoscopic systems, with emphasis on thermodynamic trade-off relations and biophysical applications.
low-dimensional topology
Polymer Topology
Modeling polymer systems with complex topology, including knots, braids, and circuit-like architectures, to understand their mechanical properties and thermodynamic behavior.
Non-equilibrium statistical physics
Active Matter Physics
Describing particles that convert environmental or chemical energy into self-propulsion, leading to large-scale collective effects such as Bose-Einstein-like condensation, non-Gaussian behaviour and emergent chaotic mixing.
applied mathematics
Differential equation Theory
Developing the Beyond Linear Use of Equation Superposition (BLUES) function method for finding approximate analytical solutions of nonlinear differential equations, with applications in ordinary, partial, coupled and fractional equations.
other
Other Topics
Some research projects that stand on their own and are not associated with my main research interests. Examples include deposition processes and the application of Visibility Graphs to convert time series into complex networks.