Hey!

I am an IBM Quantum Research Intern advancing quantum subspace algorithms for studying and improving noisy quantum computers. I am interested in research relating to the fundamentals of quantum science and ways to analyze and predict classical systems through hybrid quantum-classical methods.

Past Work

I have primarily specialized in two fields of research: phenomenological high energy physics and quantum computation theory and software. Some of my previous work includes:

• Computing and optimizing the evalutation of parton distribution functions for next-to-leading-order t-channel single top quark production

• Developing a simulation of a Gaussian Schell-model muonium beam through an interferometric system while implementing phase shifts to study the viability of an experimental construction to study the effect of gravity on leptonic antimatter

• Calculating the eigenmodes to simulate the electric field of a plasma haloscope system, a novel tool being used in the search for dark matter, while co-authoring a whitepaper now found in APS Phys Rev D

• Engineering, programming, and designing in a team of 3, an active solar tracker that self-orients upon landing after deployment from a rocket with a one-mile apogee and provides energy to a geothermal sensor and two motors

• Optimizing the integration of 5G satellite towers across various landscapes and urban environments using graph theoretic approaches and modelling the expected bandwith necessary for a given household

Ask me elsewhere for other past stuff I may have done!

My 2023 Favourites

• Album
• Film
• Show
• Book
• Podcast

Hobbyism

• Music
• Film and Television
• Community Building
• Research Mentorship
• Education and Pedagogy
• Amateur Photography
• Orchestral and Classical Music
• Running & Cycling
• Literature

Find me on

• twitter
• github
• linkedin
• scholar