Tools for the Experimental Stack
From RF signals to optical interfaces to automated control, POSM builds the supporting systems that make complex quantum and photonic experiments easier to tune, monitor, and repeat.
Signal Generation Platforms
Modular RF and mixed-signal platforms for generating, routing, filtering, and switching experiment-control waveforms. Designed for multi-channel laboratory systems, these boards provide a flexible foundation for laser modulation, timing control, and RF-driven experimental setups.
Frequency-Control Hardware
Hardware for precise optical frequency control across wide modulation bandwidths. These systems support laser-frequency shifting, agile modulation, timing coordination, and clean signal conditioning for experiments where stable, tunable optical control is required.
Electro-Optic Assemblies
Compact electro-optic hardware for integrating modulators into photonic and atomic experiments. These assemblies combine modulator packaging, drive electronics, optical alignment, and optomechanical support into practical modules designed for stable laboratory use.
Automated Optomechanics
Motorized optomechanical hardware for experiments that require repeatable optical adjustment and live diagnostic feedback. POSM develops automated rotation mounts, polarization and power-control modules, and optical monitoring taps that make laboratory optical systems easier to tune, measure, and return to known states.
The control layer: POSMq
Hardware alone isn't enough. POSMq connects instruments, models, and experimental decisions into a single lab-control platform.
Questions?
Reach out to discuss hardware collaboration, instrumentation needs, or partnership.
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