Research

My research intertwines philosophy of physics, general philosophy of science, and metaphysics of science. I am mainly focused on four research areas.

[1] Inter-level relations in science

Bronshtein cube connecting physical theories across limiting regimes My main academic interest lies in how scientific theories that describe reality at different levels are related, with particular emphasis on the conditions under which one theory can be reduced to another, especially in physics. My work has addressed reduction across a range of contexts, most prominently thermodynamics, classical mechanics, astrophysics, and biochemistry. A central focus of this work has been functional reduction and the development of this approach within the philosophy of science [SEP]. More broadly, I am interested in how the ontologies of theories valid at different regimes or scales are connected, and in effective (scale-relative) realism.

[2] Thermodynamics

I'm interested in the foundations of thermodynamics and statistical mechanics, both at the classical and quantum levels. I'm especially interested in the applicability of these theories to unconventional domains, such as gravitating systems like globular clusters. Although they are successful in describing such systems, standard applications of concepts such as equilibrium are problematic, prompting a reconsideration of the foundations of thermodynamics and statistical mechanics.

[3] Spacetime theories

My work addresses the structure and ontology of spacetime theories, examining both classical settings (e.g. Newton-Cartan theory) and relativistic and cosmological contexts. I focus especially on the A-theory of time and on the relationship between space, time, and spacetime, with particular attention to what physics reveals about simultaneity and the unification of space and time into spacetime.

[4] Quantum mechanics

I work on various topics within the ontology of quantum mechanics, especially the physical meaning of the quantum wavefunction. I explored the latter topic in the context of collapse theories and Bohmian mechanics, worked on the application of Ontic Structural Realism to quantum mechanics, and developed a functionalist account to recover three-dimensional objects from the quantum wavefunction.