Introducing the Hyperfine HF-One with WaveScale technology , a revolutionary spectrometer that shatters traditional performance limitations.
In the world of process control and analytical measurements, both spectroscopic data quality and light collection efficiency can make the difference between success and failure.
Traditional Czerny-Turner spectrometers have forced users to accept two critical compromises:
- Decreased measurement reliability at shorter wavelengths due to fewer pixels per spectral element
- Reduced light throughput when achieving higher resolution, resulting in longer integration times
We've eliminated these fundamental limitations with our groundbreaking WaveScale™ technology and innovative optical design. The HF-One delivers:
- Constant pixels per spectral element across the entire 250-1000nm range, ensuring unprecedented consistency in spectroscopic measurements
- Up to 400% higher sensitivity compared to traditional fiber-coupled spectrometers
- Consistent 1nm resolution throughout the spectral range
- Enhanced dynamic range at shorter wavelengths, where traditional designs typically sacrifice over 2x in capability
For demanding applications like Raman spectroscopy, LIBS, or high-speed process control, the HF-One provides compelling advantages. No more questioning data quality at certain wavelengths or choosing between resolution and signal strength. With uniform pixel density and optimized light collection, you get dependable measurements and maximum sensitivity throughout your spectral range.
The innovative design delivers these performance breakthroughs in an ultra-compact form factor. At just 75mm x 70mm x 12mm and weighing only 130g, the HF-One packages full-sized performance in a remarkably small, robust, monolithic construction that ensures reliability while maintaining precise optical alignment.
Experience the difference that truly uniform spectral sampling and efficient light collection can make in your applications. The HF-One with WaveScale™ technology - because your measurements deserve consistency at every wavelength and every photon matters.
