Physicist working at the interface of soft-matter physics, mesoscale modeling, and functional materials.
My research focuses on aggregation phenomena, amphiphilic self-assembly, and field-responsive soft matter, with particular interest in how structure, symmetry, and external fields influence collective behavior at the mesoscale.
I work primarily with coarse-grained simulation approaches, including Langevin and Brownian dynamics, applied to polymeric, colloidal, and nanoparticle-based systems. My background combines theoretical physics, numerical modeling, and long-term involvement in open-source scientific software.
- Soft-matter physics
- Mesoscale and coarse-grained modeling
- Aggregation and clustering phenomena
- Amphiphilic and polymer systems
- Magnetic fluids and field-responsive materials
- Langevin and Brownian dynamics
- Symmetry and chirality in condensed matter
I have contributed to open-source scientific software used in soft-matter and molecular dynamics research, with a focus on simulation methods and their application to mesoscale physical systems.
Selected repositories in this profile reflect methodological work, research-oriented code, and tools developed or used in the context of academic research.
Founder & CEO of AMINERA (in formation) — an industry-facing research initiative focused on translating soft-matter physics and mesoscale modeling concepts toward applied and industrial contexts in Europe.
This GitHub profile is intended to document research-related code and methodological work.
It is not intended as a product or commercial repository.
- Website: aminera.fr
- ORCID: 0000-0003-4042-1144
- Google Scholar: Bogdan Tanygin – publications & citations