X-ray diffractometer

• The ARL EQUINOX 3000 curved detector can simultaneously measure all diffraction peaks, which is faster than other diffraction instruments. This spectrum is real-time, which is conducive to the kinetic study of any sample.
• Thermo Scientific ™ ARL ™ The EQUINOX 3500 is an upgraded version of the ARL EQUINOX 3000. The EQUINOX3500 is equipped with a detector with a larger curvature radius, which can obtain high-resolution XRD data as needed at any time.
• Without the need for scanning, the entire 2theta full range signal can be measured simultaneously and in real-time.
• Optional sample racks include: reflective and transmissive dual use rotating sample rack, transmissive capillary sample rack, 6-position or 30 position automatic sample exchanger, and thin film sample rack.
• Application scope: research, environment, geology, mining, cement, metallurgy, pharmaceuticals, education.

The ARL EQUINOX 3000 and 3500 are equipped with ultra large area real-time detectors that can synchronously collect the entire spectrum in real time. This makes it have faster detection speed and particularly suitable for in situ research and experiments related to crystallization/phase transition.

• Reliable and durable, with no moving parts
• Standard high-power diffraction platform
• Real time synchronous data collection
• Multiple sample stages and analysis modes to choose from
• Multiple optical components can be optionally selected
• High-resolution detector

The ARL EQUINOX 3000 and ARL EQUINOX 3500 use standard high-power phototubes. To achieve high analytical sensitivity and resolution, we recommend using parallel light or focused light multilayer mirrors. In addition, monochromators can also be used in the optical path. If a graphite monochromator is used, the sensitivity of the instrument can be improved. If a germanium monochromator is used, the resolution can be improved. The ARL EQUINOX 3000 and ARL EQUINOX 3500 can also be equipped with the SiamX dual monochromator system (a two in one device of germanium monochromator and graphite monochromator), which can easily convert between the two optical modes.

• Ge (111) monochromator

- Better spectral resolution
The spectrum only contains K α 1 wavelength

• Focusing multi-layer mirror

- Generate * beam of light
- High intensity focal spot focusing on the detector
- Retained K α 1&2 wavelengths
When conducting dynamic research, it is necessary to quickly collect spectra, and a focusing lens is an ideal configuration at this time

• Graphite monochromator HOPG (002)

The sensitivity of the spectrum is better
The spectrum retains the K α 1&2 wavelengths

• Parallel light multilayer mirror

- Generate high-intensity parallel light
- Retain K α 1&2 wavelengths
When conducting GIXRD and XRR measurements, parallel light multilayer mirrors can significantly shorten the testing time and are an ideal configuration

ARL EQUINOX 3000 equipped with CPS 120 ultra large area real-time detector

• • With higher resolution and more features
• Asymmetric acquisition mode, synchronous acquisition of 0 °~120 ° 2 θ full spectrum
• Detector radius: 250 mm
• • Suitable for phase qualitative, quantitative, and Rietveld analysis
• Ideal choice for in-situ applications (high temperature, low temperature, etc.)

ARL EQUINOX 3500 equipped with CPS 590 ultra large area real-time detector

• • Resolution better than CPS 120

FWHM (full width at half maximum) is only half of CPS120

• Asymmetric acquisition mode, synchronous acquisition of 0 °~90 ° 2 θ full spectrum
• Detector radius: 500 mm
• It is an ideal choice for customers who focus on high-resolution and low angle data

When studying the relationship between the physical or chemical properties of materials and changes in temperature, environment, pressure, or other factors, real-time dynamic testing of their crystal structure is required. When the material undergoes a phase transition, Thermo Fisher's ultra large area real-time detector technology can be used for observation. This detector can synchronously collect abnormally complex XRD spectra, ensuring that any phase changes that occur during the experimental process are not missed, especially when unstable compounds are present in the material.