Interests:
Quantum Physics/Theory/Computation, Numerical methods, partial differential equations, RF/electromagnetics, magnetic materials, cosmology.

Skills:
Programming (MATLAB, Python, C++), Linux, theory/modeling, superconducting qubit experiments, statistical analysis, writing, teaching.

Papers/Reports:

Undergraduate Senior Thesis:
Numerical Solution of Boundary Value Problems Using Finite-Difference Methods (FDM).

Graduate Research Project in Quantum Sensing:
Doppler sensitivity and optimization of Rydberg atom-based antennas (Peter B. Weichman).

Graduate Research Project in Quantum Computing:
Notes on Theory and Implementation of Superconducting Qubit Devices.

Graduate Expository Paper:
Introduction to Bohmian Mechanics.