About Me

I am a medical engineering student with a strong focus on experimental research, hands-on laboratory work, and prototyping. My interests lie at the intersection of applied physics, medical technology, and microsystems engineering, with a particular emphasis on understanding and building technical systems from first principles.

My academic path has been shaped by a continuous search for environments where theory and practice are tightly coupled. After an initial orientation phase in mathematics and physics education, I deliberately shifted toward medical engineering to work more directly with technical systems, experimental setups, and real-world constraints.

Alongside my studies, I have been involved in a range of activities that go beyond the formal curriculum, including:

experimental research at the radiation safety and detector technology laboraty
development and extension of laboratory infrastructure
supervision and mentoring of students
open-source–oriented prototyping and fabrication work

A recurring theme in my work is the independent acquisition of new methods and tools when required by a project. This includes learning unfamiliar software stacks, experimental techniques, or fabrication processes in order to solve a concrete technical problem.

I am particularly interested in research-oriented engineering contexts where hardware, software, and physical modeling interact, such as:

medical imaging and reconstruction
detector systems and experimental instrumentation
microfabrication and microfluidics
neurotechnology and microsystems

This portfolio documents selected projects and technical notes that reflect this approach.