S. E. — Quantum Computing Profile

Skills

Quantum & Experimental Physics

Quantum sensing (NV centers, ODMR)

Spin coherence characterization (T₁, T₂)

Quantum optics experiments

Single-photon detection and HBT interferometry

Noise-limited measurements and sensitivity optimization

Optical & Photonics Systems

Confocal microscopy

Laser systems (CW and pulsed)

Optical alignment and spectroscopy

Photodetectors and optical filtering

Raman and fluorescence spectroscopy

Microwave & Electronic Systems

Microwave signal generation and modulation

RF/MW antennas and control electronics

Lock-in amplification

FPGA pulse control systems

DAQ system integration and hardware synchronization

Programming & Scientific Computing

Python (experiment automation, data acquisition)

MATLAB

C++ / Fortran

Scientific computing and numerical modeling

Data analysis and time-series processing

Quantum Software & Simulation

Qiskit

Cirq

QuTiP

PennyLane

TensorFlow Quantum

Engineering & Research Tools

COMSOL Multiphysics

LabVIEW

Zemax

SolidWorks

LaTeX

About

Ph.D.-trained experimental physicist with expertise in quantum sensing, quantum optics, and solid-state spin systems. Experienced in designing and operating precision quantum experiments involving lasers, microwave control, and single-photon detection, with a strong focus on ODMR-based measurements and noise-limited sensing using NV centers. Hands-on experience developing integrated quantum hardware platforms, including optical systems, microwave electronics, FPGA-based control, and automated data acquisition.

Most recently a Quantum Research Engineer at Toyota Research Institute of North America, where I developed and optimized experimental quantum sensing systems and achieved sub-nT magnetic field sensitivity through advanced signal processing and system optimization. Strong programming background in Python for experiment automation and data analysis. Interested in contributing to the development of next-generation quantum hardware platforms, particularly in AMO physics, trapped-ion systems, and quantum sensing technologies.