Python Package for Modelling Dust Evolution in Protoplanetary Disks.

Generate and manipulate semi-analytic models of planet wakes

2D Monte Carlo dust evolution code for protoplanetary disks

Python code to simulate the formation of rocky planets in chemical equilibrium (based on Gibbs energy minimisation) and analysis of planet compositions.

Inferring the minimum-mass extrasolar nebula (MMEN) from SysSim

"Gas Accretion onto Eccentric Planets" - B.Sc. thesis that I wrote at the Max Planck Institute for Astronomy in Heidelberg under the supervision of Dr. Bertram Bitsch (during winter semester 2019/20).

Production input and output files, data analysis and plotting notebooks, and high-performance-computing-related resources related to Baronett et al. (2024)

Planet Formation in the Southwest +

Python code to model the evolution of a viscous disk

"Computational Cost Optimization for Numerical Integration of the Smoluchovski Coagulation Equation via Stochastic Kernel Sampling" - M.Sc. thesis that I am currently writing at the Heidelberg Institute for Theoretical Astrophysics under the supervision of Prof. Dr. Cornelis Dullemond

Figure and source code for the Streaming Instability Code Comparison Project.

Cleaned images, uv-tables, calibration, plotting and analysis routines used by Zagaria et al. (2025b)

A framework to model stellar irradiated disks with frequency-dependent absorption and scattering opacities in Athena++ (Baronett, Jiang et al. 2025)