Empowering Photonics Research with Precision Instrumentation
Precision tools purpose-built for advanced integrated photonics research, enabling innovation in energy-efficient computing, ultra-fast data interconnects, and utility-scale quantum applications
Vision
We are building the test and measurement foundation for the next era of light-powered applications.
Integrated photonics is rapidly becoming the platform for quantum technologies, optical computing, and advanced communication systems. But the tools needed to characterize the components involved, at the chip or wafer scale, have barely evolved in decades.
We’re here to change that.
Tools to tackle modern problems
Reliable, low-noise instrumentation designed for chip- and wafer-scale characterization in integrated photonics, optical computing, and emerging quantum-enabled systems.
Spend Your Budget Where It Matters
Fabrication and packaging already drive costs high. Your test equipment need not. Our tools deliver precise, lab-grade measurements at accessible pricing—so you can focus resources on meaningful breakthroughs.
Engineering Support
From optoelectronic interfacing to low-noise data acquisition and control electronics, we help accelerate your chip bring-up and system design with practical, proven expertise.
The first step..
Setting the baseline for accessible precision photonic measurement with low noise detection and streamlined data acquisition.
Future modules will build on this foundation to support the full photonics workflow.
Ultra low-noise photodetection
The analog front end features high-sensitivity photodetectors with selectable linear or logarithmic amplification: ideal for precise monitoring or wide dynamic-range measurements.
The result is accurate, low-noise optical-to-electronic signal conversion that feeds directly into the data acquisition system for dependable chip- and wafer-scale characterization.
The most capable data acquisition system in it's class
A multi-channel, truly simultaneous sampling ADC captures all inputs in parallel, with user-defined sample rates up to 100,000 samples per second.
Deep onboard memory supports long measurement windows and uninterrupted data collection, while a high-speed USB link enables fast transfers and automated, repeatable measurement routines.
Connectivity and synchronization
A rear-panel sync port enables tight integration with swept sources for spectral characterization and is compatible with all major tunable lasers on the market. The device is powered through a standard DC supply for stable operation, while a USB-C interface provides a modern, universal, and driver-friendly connection, far simpler than legacy setups.
A responsive, cross-platform user interface supports real-time power monitoring, and a fully documented Python API offers complete control for automated measurement routines.
