FTIR microscope module with the highest sensitivity at the highest spatial resolution
HYPERION 3000 with its high-quality design, including all optical, mechanical, and electronic components, provides high stability and reliability. HYPERION 3000 has the modular design and that is why it can be customized for the most challenging R&D applications. Featuring many contrast enhancement tools, a wide variety of dedicated objectives, and chemical imaging, the HYPERION enables you to conduct the most sensitive microanalysis easily and efficiently.
Highest sensitivity and lateral resolution
High performance ATR objective with internal pressure sensor
Focal Plane Array (FPA) Detector technology for fast chemical imaging
Great flexibility - wide spectral range, many different objectives
Grazing angle objective (GAO) for (sub-)monolayer detection on metallic surfaces
RockSolid™ interferometer for permanently aligned optics and insensitivity to vibrations
Fully automated test routines for validation according to cGMP (OQ, PQ)
21 CFR Part 11 and validation according to EU-, JP- and US-Pharmacopeia
Chemical Imaging via FPA Detector
The HYPERION 3000 represents the pinnacle in infrared microspectroscopy, incorporating state-of-the-art Focal Plane Array detectors for the most demanding infrared imaging applications. High-resolution chemical images can be collected in a matter of seconds. Using this technique up to 16,384 spectra can be measured simultaneously. To cover large sampling areas with high lateral resolution, IR images can be combined by mapping.
The permanently aligned RocksolidTM interferometer is a unique patented component which yields over 20% higher throughput than ordinary interferometer design. It benefits from dual retro reflection cube corner mirrors and wear-free pivot mechanism located in the center of mass, which ensures exceptional stability and reliability even in harsh environment. With its patented design, the elimination of mirror tilt optically and prevention of mirror shear mechanically is reached.
No need of standby mode to protect the bearing
No need of recalibration after movement
No wearing of mechanical bearing, no spare parts, minimization of service costs