Ray Tracing and Optical Design in Python

Integrated Machine and Deep Learning for Optical Design

Physics simulator and fine tuned LLM for predicting thermal drift in deep-space photonic instruments and recommending mitigation strategies across material and environment combinations. Built on AWS Bedrock, trained on 40K synthetic scenarios

An investigation into replicating the spurious effects of the reference sources for the ESPRESSO spectrograph

An agentic AI workflow for SiN waveguide design that bridges modesolverpy, SAX+JAX, and gdsfactory via FastMCP. It handles eigenmode solving and inverse design for GDSII mask output, powered by AWS Bedrock AgentCore, Strands SDK, and hybrid S3/DynamoDB storage

MATLAB & Zemax tools for designing astronomical spectrographs

Code for a novel activity sensing device that uses optical infrared and inertial sensing technologies

Advanced analysis of optical systems using parameters retrieved from Zemax via DDE (Dynamic Data Exchange)

Zemax MEMS surface pixel calculator with drawing and loading 64x48px images

Suite of tools and methods for the analysis and simulation of optical beam. Available on PyPI

...

A high-performance, hybrid GPU/CPU optical ray-tracing library for Python.