Advantages
- Captures more light, improving signal clarity and speeding up overall data collection significantly
- Sharpens image detail by matching output light precisely to detector pixel dimensions
- Removes the usual tradeoff between gathering light and maintaining high resolution accuracy
- Performs reliably even when samples move, supporting dynamic, real world imaging conditions
Summary
Spectrometers and medical imaging systems depend on optical fibers to carry light from sample to detector, demanding maximum data capture, sharp spatial resolution, and fast acquisition. Real world samples rarely stay still, so these systems need fibers that can gather abundant light from moving targets and deliver it cleanly to high resolution detectors without losing data quality.
Unlike standard fibers that force a tradeoff between collection efficiency and resolution, this technology uses a hybrid diameter design, a larger end for collecting light and a smaller end for precise detection. This dual structure removes the usual compromise, capturing more light while preserving resolution. The design adapts to many fiber architectures and manufacturing methods, offering strong technical credibility alongside clear, practical performance gains for partners.

A spectrometer with an optical fiber as a probe.
Desired Partnerships
- License
- Sponsored Research
- Co-Development