I have a Master's in Physics, and am pursuing a PhD, focused on Quantum Computing.
-
An access model for quantum encoded data(A work investigating how classical access to quantum computation can be abstracted, what counts as "faking" a quantum computation, and how powerful the resulting abstracted model is. Contains applications to the problem of computing a distributed inner product.)
-
Making the cut: two methods for breaking down a quantum algorithm(Building upon previous work, we propose specific architectures for quantum-classical hybrid algorithms with provable guarantees in the query model.)
-
Simplifying a classical-quantum algorithm interpolation with quantum singular value transformations(Publication on using Quantum Singular Value Transforms to think about algorithms with limited coherence times, and simplifying the derivation of a particular instance.)
-
Quantum Computing With a Single Qubit(My final seminars' class presentation for a Physics master's course, presenting basic notions of Quantum Computing in an accessible way.)
-
Molecular Geometry Calculations Using a Novel Quantum Variational Approach(Master Thesis on using limited quantum computers to calculate bond lengths)
- (That's all for now, but keep scrolling)
