Control suite for FPGA based qubit time-series photonics
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Updated
Mar 9, 2023 - Python
Control suite for FPGA based qubit time-series photonics
Analytics suite for FPGA based qubit time-series photonics
Expoloring High Energy States in Diamond Defects (NV-Centers) - My Mid-Bachelor Research Project
LifeNode Pillar III: Cosmic BioEngineering. Moving from artificial tools to living organs. We merge biological computing (mycelial networks), quantum tech, and process intelligence to build deep space habitats and re-sync humanity. Welcome to the era of Process Engineering.
Process-intelligence framework for health-trajectory maintenance. Shifting healthcare from state-diagnosis to phase-coherence via quantum sensing (SiC/NV), symplectic dynamics, and bio-resonant synchronization. Validated through mycelial electrophysiology (2026) and Zero-Build protocols. From Data Architecture to Existence Architecture.
A modular Python framework for simulating quantum spin defects, ODMR, and sensing protocols. Supports ensemble modelling, electric and magnetic fields, and magnetometry workflows for research in AMO and condensed matter physics.
This repository contains python code to control the various components required to conduct an experiment to optically detect the electron spin resonance in fluorescent micordiamonds.
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