UROP - Summer/Fall 2025

I'm currently working with FutureTech at MIT's Computer Science and Artificial Intelligence Lab (CSAIL) with the AlgoWiki project. The project aims to benchmark the progress of theoretical algorithms of intractable problems through time. I am developing an automated pipeline to parse, analyze, and validate all of the data the project has collected so far (mostly asymptotic runtimes of algorithms).

UROP - Spring 2025

I worked with the Quantum Nanostructures and Nanofabrication Laboratory (QNN) at MIT's Research Lab of Electronics (RLE). My work focused on the switching currents of superconducting nanowires; I worked in a very cool lab (lots of cryostats!) where I set up and took measurements of various devices and analyzed the data.

MIT PRIMES-USA

I was a part of MIT PRIMES 2023, a high school math research program hosted by MIT. I worked with PhD candidate Vasiliy Nekrasov and Professor Dmitry Kleinbock, both from Brandeis University, on the topic of Schmidt Games. I presented my results at the annual PRIMES conference and at the Brandeis Dynamics and Number Theory Seminar. I was also named a Regeneron Scholar (top 300 nationwide) as a result of this project.

We are in the process of publishing this work; you can read the arxiv pre-print here.

Institute for Computing in Research

Over the summer of 2023, I worked under Dr. Pawel Kozlowski from Los Alamos National Laboratory developing Python simulations to study plasma imaging; specifically, my results demonstrated how traditional geometric optics can be modified to improve the accuracy of imaging under certain conditions. The project was performed under the Institute for Computing in Research program, organized and led by Dr. Mark Galassi.

You can find my code, as well as my research report and slides, in my codeberg repository.