Optical spectroscopy is today a highly important technology for online process monitoring and optimization. Fiber-coupled probes allow a direct look into the process without time delay.
The MATRIX-F II FT-NIR spectrometer allows direct measurements in process reactors and pipelines, leading to a better understanding and control of the process. Its innovative technology provides consistent high quality results, less downtime and direct method transfer. All Bruker process spectrometers are characterized by robustness, long-term stability, and low maintenance costs.
Thousands of installations in the chemical, petrochemical and polymer industry as well as in pharmaceutical production processes and in the field of food and feed manufacturing prove our experience.
Bruker’s MATRIX-MF II FT-IR spectrometer expands the proven MATRIX series product line utilizing the information rich mid-IR region for use in both laboratory and process environments. The MATRIX-MF II is a process ready FTIR spectrometer that is ideal for real-time monitoring and analysis of chemical and biological reactions.
The MGA Control software provides users with all necessary functions and controls to perform highest precision and accuracy gas mixing ratio measurements with MIRO’s MGAs. It offers an easy-to-use touch screen interface that gets new users up and running in no time thanks to a high degree of automation, while experienced users have full insight and control over the spectral fitting of the measured gas absorptions.
Powerful laser-based Gas Analyzers with ppb to ppt precision for monitoring of greenhouse gases and air pollutants
MIRO’s MGA10-GP has revolutionized and simplified the monitoring of greenhouse gases and air pollutants by enabling simultaneous online measurements of 10 gases at high measurement rates while offering excellent stability and ppt precision.
MIRO’s MGA10-GP analyzers directly measure concentrations of all compounds using mid-infrared laser absorption spectroscopy with Quantum Cascade Lasers as light sources. This allows for highly specific and accurate gas detection along with maximum measurement sensitivity without the need for conversion. Our analyzers are typically free of measurement interferences from other gas species. The intuitive touch display enables fast and easy control. The analyzer is suitable for various applications as Comparison with reference methods – MIRO Analytical (miro-analytical.com) to Mobile monitoring – MIRO Analytical (miro-analytical.com) measurements
A mobile FT-IR spectrometer with true laboratory performance that you can take anywhere. Even on the road, you never have to sacrifice performance or compromise on reliability or spectral quality. With its IP65 protection, the instrument bravely withstands harsh environments.
MOBILE-IR II Features:
Cryogen-free MCT detector (TE-MCT)
Rugged design (IP65) and vibration damping rubber feet
Internal high-capacity battery
Heatable diamond ATR crystal
Super-robust carry-case with wheels (IP67)
OPUS TOUCH operating software
RockSolidTM interferometer (>10 years life-time)
CenterGlowTM source (lifetime >5 years)
Diode laser (lifetime >10 years)
MOBILE-IR Benefits:
lab-grade FT-IR performance without liquid N2
Protection against dust and water jets
Operate independent from infrastructure and powergrid
Easy and safe transport of device and accessories
Beginner-friendly software needs only 10 minutes training
The analysis of milk and dairy products is essential for ensuring quality, safety, and compliance with industry standards. Fourier Transform Near Infrared (FT-NIR) technology is renowned for its rapid, non-destructive testing, ensuring precise and repeatable analysis of fat, protein, lactose, and total solids in dairy products.
The new MOVE-T is a compact FT-NIR benchtop analyzer focusing on liquid analysis from raw milk to liquid finished products, intermediates, and premixes.
Advanced FT-NIR Technology: Provides precise and reliable analysis.
Choosing the best possible sampling method is crucial when solving a specific analysis task. With the MPA III, you have a complete solution at hand for your daily QA/QC work, but also for sophisticated method development studies. Initially it is often not obvious which sampling method is the best. With the MPA III, simply try out several methods choose the best option for you. The possibilities are endless, and due to the modular design of the MPA III, the instrument can easily be adapted to your needs. The robustness of the instrument allows it to be used in the laboratory and factory floor.
The MPA III is available in different configurations to match your application needs.
Initially it is often not obvious which sampling method is the best. With the MPA III, simply try out several methods choose the best option for you.
The possibilities are endless, and due to the modular design of the MPA III, the instrument can easily be adapted to your needs. The robustness of the instrument allows it to be used in the laboratory and factory floor. It can even be placed on a utility cart for mobile applications.
The MultiRAM configuration provides a spectral range of 3600 – 50 cm-1 (Stokes shift). The heart of the MultiRAM is Bruker’s patented interferometer with gold coated optics and permanent RockSolidTM alignment, which provides the superb stability and throughput required for demanding emission experiments, as it is the case for Raman spectroscopy.
The OMEGA 5 is designed for automated, high-precision, and real-time monitoring of gas concentrations across various applications. Enclosed in a 19’’ rackmount housing, it features a 5-meter multi-reflection gas cell that can be heated to 191 °C. The system is equipped with a TE-MCT detector for low detection limits and continuous measurements as liquid nitrogen is not required.
The OMEGA 5 is operated by the gas analysis software OPUS GA. This software enables the quantification of over 350 compounds without the need for calibration measurements. For an accurate quantification, the pressure and temperature of the gas are constantly recorded throughout the analysis process and taken into account.
The high-resolution option provides the capability to measure with a spectral resolution of better than 1 cm-1 (standard: better than 2 cm-1). This enhanced spectral resolution proves invaluable in numerous applications, enabling the identification and quantification of gas compounds, even within complex gas mixtures with a significant degree of overlapping infrared signals.
The external accessory PMA 50 has been specially developed for Polarization Modulation measurements. It can be adapted to Bruker INVENIO and VERTEX FT-IR spectrometers. All optic and electronic components in the PMA 50 module are optimized for the Polarization Modulation. Both linear dichroitic measurement techniques like PM-IRRAS and circular dichroitic experiments like VCD spectroscopy can be realized using this dedicated system.
The core of the Polarization Modulation technique is the Photoelastic Modulator (PEM) with a nominal modulation frequency of 42 kHz. With the help of the parallel 24-bit dual-channel data acquisition technology the sum and the difference signals can be collected simultaneously with highest sensitivity. The PMA 50 module exhibits short beam path, and therefore provides optimal S/N ratio and stability.
The Process Guardian™ Raman spectrometer is engineered to meet the evolving demands of modern process analytics. Built on our patented High Throughput Virtual Slit (HTVS™) technology, it delivers 10x–30x greater signal intensity than conventional slit-based Raman spectrometers—enabling faster measurements, lower detection limits, and greater chemometric accuracy. Designed as a rugged, rack-mountable standalone analyser, the Process Guardian™ simplifies deployment and operation in both development labs and industrial settings. With an integrated processor, embedded software, and built-in display, it operates independently—no external PC or IT maintenance required. Whether used for in-line, at-line, or benchtop applications, the Process Guardian™ offers the performance, flexibility, and ease of use required for confident, real-time decision-making in critical processes.
Bruker is a manufacturer of class-leading Raman process spectrometers and accessories, which exceed the highest levels of certification by various governing bodies.
The suppression of fluorescence can be the decisive advantage in Raman microscopy. The RamanScope III is designed to do just that, providing excellent Raman data even on difficult samples.
The benefits of FT-Raman microscopy are well known:
The SENTERRA II is a confocal Raman microscope designed for straightforward, non-stop operation. Its high degree of automation allows fast and easy Raman imaging for failure analysis, quality control and scientific research. First, the SENTERRA II is fully automated, including self-diagnosis and instrument tests like OQ and PQ. Change a laser with a simple mouse click, and afterwards, the filter and grating are adjusted automatically.Naturally, the SENTERRA II offers excellent sensitivity combined with pristine spectral and Raman Imaging performance. But the real powerhouse of this confocal Raman microscope is our SureCalTM technology.Let us briefly repeat one of the most important principles of Raman technology: External factors affect the optical and mechanical components in every Raman microscope, especially heat, component changes and vibrations. Ultimately, this induces wavenumber shifts, which must be compensated by regular recalibrations.
The SmartProber-P1 is aimed at the next-generation over 5.5 kOe. Various configurations of this type of SmartProber are available. If the high perpendicular field is required, but only small samples need to be measured, the automated wafer stage can be replaced with a cheaper manual stage.
SP-P1 – 6kOe magnet, 300mm rotary wafer-stage
Configuration options:
C: Additional in-plane magnet module with a field strength of 2kOe
Y: 200mm XY wafer-stage
M: Manual wafer-stage for small samples
L: 10kOe magnet
This low-cost table-top equipment comes with manual x-y positioning, fully automated probe landing, an in-plane magnet as well as an anti-vibration table. The open nature, low cost, and versatility make the
SmartProber-TT especially suited for research and/or development.
Sample size: up to 6″ wafers, up to 1.3 mm thickness
The SuperFlux™ Raman spectrometer delivers powerful performance in a compact benchtop form factor. Designed for laboratory-scale and light industrial process use, the SuperFlux™ combines speed, sensitivity, and affordability in a standalone analyzer that’s easy to deploy and operate. Powered by Tornado’s proprietary High Throughput Virtual Slit (HTVS™) technology, SuperFlux™ achieves 10x to 30x higher Raman signal intensity than conventional slit-based spectrometers—enabling faster measurements, enhanced chemometric precision, and lower detection limits. Whether you’re doing QA/QC, R&D, or monitoring small-scale production, the SuperFlux™ is a reliable and cost-effective solution for real-time, non-destructive chemical analysis.
Thermal Analysis provides ideal tools for the characterization of organic and inorganic, either solids or liquids. Thermodynamic transitions, thermal stability, decomposition and chemical reactions can be detected and quantified with high accuracy over a broad temperature range
The identification of gases released directly from the sample or during thermal treatment cannot be performed just by thermal analysis, but coupling a spectroscopic method such as Fourier-Transform-Infrared (FT-IR) spectroscopy is an excellent solution.
Leveraging over 20 years of CMP characterization expertise with its predecessor product (Bruker CP-4), TriboLab CMP brings a complete set of capabilities to the industry-leading TriboLab platform. The resulting accuracy and measurement repeatability enables the highly effective qualification, inspection, and ongoing functionality testing required throughout the CMP process. TriboLab CMP is the only process development tool on the market that can provide a broad range of polishing pressure (0.05-50 psi), speeds (1 to 500 rpm), friction, acoustic emissions, and surface temperature measurements for accurate and complete characterization of CMP processes and consumables.
The unique verTera extension upgrades the famous VERTEX 80v to the first and only combined FT-IR/continuous wave THz spectrometer.
verTera makes use of high precision semiconductor based photomixers, converting near infrared laser light into THz radiation. Source and detector are integrated into the VERTEX 80v beam path and the class 1 NIR laser radiation is connected via fiber and vacuum tight feedthrough.
Vacuum operation eliminates unwanted atmospheric interferences and provides utmost stable conditions, resulting in significantly higher THz performance.
The VERTEX NEO R represents the new generation of vacuum FT-IR spectrometers, designed to set new standards in advanced research applications. With an emphasis on flexibility, precision, and innovation, it delivers the ultimate support for cutting-edge scientific exploration.
Building on 50 years of success in the FT-IR academic and research market, we proudly present our next-generation FT-IR vacuum research spectrometer VERTEX NEO R. Designed with cutting-edge technology and well-proven unique features, this new instrument is not just an upgrade – it’s a revolution! More powerful electronics, more flexible optics bench, all new vacuum ATR technology, VERTEX NEO R is designed to push the boundaries of scientific discovery and continue our legacy of superior VERTEX performance.
The VERTEX 80 and the VERTEX 80v vacuum FT-IR spectrometers are based on the actively aligned UltraScan™ interferometer, which provides PEAK spectral resolution. The precise linear air bearing scanner and PEAK quality optics guarantees the ultimate sensitivity and stability. The VERTEX 80v is an evacuated optics bench that can eliminate atmospheric moisture absorptions for ultimate sensitivity and stability; enabling demanding experiments such as high resolution, ultra fast rapidscan, step-scan, or UV spectral range measurements.
The VERTEX 80/80v optics design allows PEAK flexibility and at the same time PEAK instrument performance. The unique Bruker Optics DigiTect™ technology prevents external signal disturbance, guarantees PEAK signal-to-noise ratio and allows easy and reproducible detector exchange by the instrument user. The two optional external detector ports accommodate the liquid He dewars of bolometer and/or hot electron detectors. In combination with the external water cooled high power Hg-arc source, the recently rediscovered terahertz spectral range is accessible even with a room temperature operated DTGS-detector.
The Bruker Wafer Clean 2200 System removes particulate contamination and thin film organic residues from silicon, compound semiconductor, MEMS and thin film head substrates using a unique carbon dioxide (CO2) snow cleaning process. CO2 snow cleaning is fast, environmentally friendly and non-damaging. The all-dry process offers numerous advantages over conventional wet and plasma cleaning techniques. This fully automated, high volume production system is field proven with over 100 systems running 24/7 in high volume production applications around the globe.
