Bruker’s state-of-the-art remote sensing systems grant the capacity to scrutinize gases, liquids, and solids. Moreover, devices like the HI 90 and SIGIS 2 operate as imaging spectrometers, enhancing their functionality with spatial mapping. At the core of these systems lie Bruker’s durable FTIR interferometers, ensuring top-tier dependability and precision. For on-site examinations, each system comes in portable configurations tailored for field operations.
The IFS 125HR, another gem from Bruker, is conceived as a cutting-edge, ultra-high resolution FTIR spectrometer, tailored predominantly for advanced R&D labs. Yet, its versatility finds applications in meticulously examining atmospheric trace gases, delving into atmospheric emission patterns, and overseeing remote atmospheric pollutants. Modern methods of tracking anthropogenic atmospheric pollution employ either the sun, as a proactive IR radiation source, for transmittance measurements or adopt a passive emission approach.