Rigaku Corporation Datasheets for Diffractometers
Diffractometers are used to measure crystal structure, grain size, texture, and/or residual stress of materials and compounds through the interaction of X-ray beams, gamma rays, electron beams, or neutron beams with a sample.
Diffractometers: Learn more
| Product Name | Notes |
|---|---|
| 2012 heralds the newest additions to the MiniFlex series of benchtop X-ray diffraction (XRD) analyzers. The new 5th generation MiniFlex is a general purpose X-ray diffractometer that can perform qualitative... | |
| A compact, fully integrated high-resolution, small molecule crystallography system, the Rigaku R-AXIS RAPID II is the latest member of the RAPID family of large-area curved image plate (IP) X-ray diffraction... | |
| Anomalous scattering with soft X-ray radiation creates new possibilities in phasing for macromolecular crystallography. The heart of a Cr-Phasing HomeLab is any Rigaku rotating anode generator with a chromium anode. | |
| As synchrotron beamlines have become more prevalent for research in structural biology, many home lab X-ray systems are used mainly for screening crystals in advance of synchrotron data collection. To... | |
| For the expert small molecule crystallographer, where a flexible configuration is required, Rigaku offers the Saturn Kappa chemical crystallography system. The Saturn Kappa is a popular choice of system for... | |
| Macromolecular crystallography and NMR are two of the most important techniques for furthering our understanding of structural biology. However, the fact remains that three-dimensional structures derived from NMR and single... | |
| Our most popular protein crystallography system, the HighFlux HomeLab is a complete home X-ray diffraction system that enables data collection on a wide range of protein crystal samples. As all... | |
| Our most powerful protein crystallography system, the Ultimate HomeLab is a complete home X-ray diffraction system that enables data collection on a wide range of protein crystal samples and dramatically... | |
| Rigaku's Compact HomeLab was designed for researchers who want a low-maintenance X-ray system with the ultimate in experimental flexibility. The foundation of this system is the third generation Rigaku MicroMax™-003,... | |
| The new Rigaku XtaLAB mini benchtop X-ray crystallography system for automated three dimensional (3D) chemical structure determination is the latest in affordable single crystal X-ray diffraction. Designed to automatically produce... | |
| The R-AXIS HTC was designed with speed in mind. High throughput crystallography requires an area detector that can measure accurate data rapidly. The R-AXIS HTC combines the proven data quality... | |
| The R-AXIS IV++ is arguably the most productive X-ray area detector in the history of macromolecular crystallography. In production for well over a decade and continuously improved during that time... | |
| The S-MAX3000 pinhole SAXS camera design is available with a choice of conventional or high brilliance X-ray sources. A 3-meter, fully evacuated camera length provides both high intensity and high... | |
| The Saturn A200 HG is the largest aperture CCD detector available for the home laboratory designed to provide fast, accurate data to high resolution on a wide variety of samples. | |
| The SmartLab is the most novel high-resolution diffractometer available today. Perhaps its most novel feature is the SmartLab Guidance software, which provides the user with an intelligent interface that guides... | |
| The TTRAX III is the world’s most powerful diffractometer. Utilizing an 18 kW rotating anode X-ray source in a θ/θ geometry provides the perfect system for demanding applications. Both thin... | |
| The Ultima IV represents the state-of-the-art in multipurpose X-ray diffraction (XRD) systems. Incorporating Rigaku's patented cross beam optics (CBO) technology for permanently mounted, permanently aligned and user-selectable parallel and focusing... | |
| These analyzers use X-ray diffraction to nondestructively test residual stress in materials. Residual stress may be created during the manufacturing process of a material, or it may accumulate in a... | |
| Uses X-rays to non-destructively measures the residual stress accumulated in a material during the manufacturing process. Different frame sizes accommodate small, medium and large samples. The position-sensitive proportional counter (PSPC)... |