Decoding the dynamics of soft and living matter at the microscale, where physics, biology, and AI uncover emergent behavior.
Scientist · Builder · Observer
I am fascinated by what physics looks like when life is involved. From the self-organization of molecules to the collective behavior of cells, I explore how matter moves and interacts in the living world. My research weaves together experiments, AI-driven analysis, and a deep curiosity about the emergent phenomena that arise when physics meets biology.
Beyond research, I love yoga, hiking, and nature. Shaped by tradition, deepened through practice and renewed in the mountains, this path has taught me the value of attention, discipline, and stillness.
We ask how pore geometry controls transport in 3D, and whether a dried blood droplet's crack pattern can identify the pathogen. Computation finds the structure that hides in noise.
See the methods →From thermal and fluids engineering to living matter.
Read the path →
NIT Jamshedpur
2016
IISc Bangalore
2022
Brandeis
2024
Bi[o]hub chicago
now