Mechanical cosmology: simulating inflationary models in synthetic mechanical lattices

Inspired by recent advances in observational astrophysics and continued explorations in the field of analog gravity, we discuss the prospect of simulating models of cosmology within the context of synthetic mechanical lattice experiments. We focus on the physics of expanding Universe scenarios described by the Friedmann-Lema\^itre-Robertson-Walker (FLRW) metric. Specifically, quantizing scalar fluctuations in a background FLRW spacetime leads to a quadratic bosonic Hamiltonian with temporally varying pair production terms. Here we present a mapping that provides a one-to-one correspondence between these classes of cosmology models and physical mechanical oscillator systems. As proof-of-principle, we then perform experiments on an actual synthetic lattice system composed of such oscillators. We simulate two different FLRW expansion scenarios driven by inflationary dark energy- and matter-dominated Universes and discuss our experimental results.