QUANTAX Micro-XRF

10

ppm

detection limit

Trace element analysis is possible thanks to a low spectral background

Minimal

sample prep

Easy sample preparation

No carbon coating required and no charging effects

40

µm

layer thickness

Thin films starting from 1 nm up to multiple layer structures of 40 µm can be analyzed

Expand your SEM Capabilities - Augment SEM EDS with micro-XRF Analysis

Micro-X-ray Fluorescence (micro- XRF) spectroscopy is a non-destructive analytical technique that can be used alongside conventional Energy Dispersive Spectroscopy (EDS) on a Scanning Electron Microscope (SEM).

Micro-XRF on SEM, also known as SEM XRF, delivers the SEM with a range of new capabilities such as the ability to measure and map trace elements, the analysis of layered samples, and more.

Trace Element Detection

X-ray analysis is more sensitive towards trace elements, allowing their detection at concentrations down to as low as 10 ppm for certain elements, an extended X-ray spectral range (up to 40 keV), as well as information from a greater depth within the sample.

Elemental Mapping with Small Spot Sizes

QUANTAX micro-XRF is equipped with XTrace 2, our latest X-ray source, including a micro-focusing X-ray optic that yields small spot sizes of down to 10 µm at a high-intensity throughput.

Multilayer Sample Analysis

The larger depth of X-ray excitation allows for the characterization of multilayer samples from 1 nm up to 40 µm, which is not possible via electron beam excitation.

Download Brochure Discover New XTrace 2

QUANTAX Micro-XRF: An EDS Detector and X-ray source allowing combined electron beam and X-ray analysis

The Combined Power of Electron Beam and X-Ray Analysis

Achieve a more comprehensive analysis - Augmenting SEM EDS with micro-XRF provides users with dual beam potential, allowing samples to be even simultaneously analyzed using an electron beam and an X-ray beam.
See more elements - Light elements (carbon to sodium) are excited via the electron beam, whereas heavier elements are excited via the X-ray beam.
One measurement for two spectra - EDS and micro-XRF acquisition take place in the same detector, incorporating light element spectral data as well as trace elements with higher energy X-ray data.
Collect cleaner data - Well-separated peaks and an extended spectral range enable the seperation of high energy K- lines since they are less complex and less overlapped.
Save time - no or minimum sample preparation required without the need for a conductive sample surface and/or extensive polishing.

QUANTAX Micro-XRF uses an XFlash^® EDS detector alongside an XTrace 2 X-ray source to combine the benefits of electron beam and micro-XRF analysis to a SEM

What is included in the QUANTAX Micro-XRF System?

QUANTAX Micro-XRF provides the tools a user needs to conduct micro-XRF analysis within their scanning electron microscope. The system consists of:

An XTrace 2 50 kV X-ray source
ESPRIT software for data processing and analysis
An XFlash^® EDS detector for high-intensity throughput analysis with extended energy range (existing on SEM or purchased seperately)
Rapid Stage for high-speed elemental mapping (optional)

Download Brochure

XTrace 2 - Advanced X-Ray Source for micro-XRF on SEM

XTrace 2 is the next-generation X-ray source in the QUANTAX micro-XRF system for micro-XRF on SEM (SEM XRF). This new and innovative X-ray source enables fast micro-XRF spectral acquisition with high-resolution data.

Advanced features, such as a FlexiSpot mode, an Aperture Management System, and motorized filter selection facilitate the collection of rich data from even challenging samples.

Collect accurate elemental data quickly and efficiently with high-energy X-rays of 50 kV and beam currents of 1000 µA for a high count rate.
Detection of trace elements at low ppm levels with automatic switching between 6 primary filters for enhanced background reduction.
Scan topographic samples in high resolution using an Aperture Management System (AMS) that keeps the image in focus across a variable working distance.
Analyze inhomogeneous and/or irregular samples using FlexiSpot mode, allowing spectral measurements from a small to a larger spot size.
Retract the X-ray optic when not needed by using a motorized linear stage with automatic source retraction (measuring and parking position).
Return to areas of interest on your sample by saving measurement positions for correlating micro-XRF / e-beam analysis.
Maximize X-ray tube lifetime with by automatic X-ray tube warm-up procedure.
Control the analysis, select filters, and move the linear stage using the intuitive ESPRIT software.

XTrace 2 - X-Ray source for SEM XRF

Contact an Expert

New Feature

Aperture Management System (AMS) for the Analysis of Topographic Samples in the SEM

XTrace 2 is equipped with the patent protected AMS to retain X-ray spot resolution even when scanning samples with a complex topography in the scanning electron microscope.

The AMS in XTrace 2 keeps the optic in focus at varying working distances by increasing the depth of field. This means that any reduction in resolution due to deviations in the working distance will be minimized, facilitating the high-resolution elemental mapping of highly topographical samples and their 3D features.

The AMS feature of XTrace 2 allows samples with a high topography to be analysed via SEM. On the left hand side is a Pyrite (FeS₂) sample imaged with no AMS, on the right hand side is the same sample imaged with the AMS set to 500 µm.

New Feature

FlexiSpot - Variable Spot Sizes

FlexiSpot allows users to not only take measurements from small spot sizes (10 μm, 35 μm) but also a range of larger spot sizes (50 - 500 μm). FlexiSpot works by retracting the X-ray source, allowing the X-ray optic to be defocused out of the nominal optic working distance. Users can select between spot sizes using the automated process in our ESPRIT software.

The ability to measure larger spot sizes allows for a more precise quantification of non-homogeneous and irregular shaped samples, as well as samples with uneven surfaces, such as powders. A large spot area provides more statistically accurate data on a sample's composition in just one measurement.

Small (35 µm) and large (200 µm) X-ray spots on a sample - FlexiSpot allows for the analysis of specific features using a small spot size and for the overall analysis of a sample using a large spot size.

New Feature

Easy Switching between up to 6 Primary Filters for Further Background Reduction

The new XTrace 2 comes with 6 primary filters allows the user to adapt the background over the whole energy range up to 40 keV for further improved sensitivity.

Additional filtering allows for the reduction of the background for specific measurements at energies up to 40 keV. Primary filters can be selected via our ESPRIT software.

The effect of different primary filters on an XRF excitation spectrum.

New Feature

Auto Source Insertion & Retraction Mode

The polycapillary optic of the X-ray source can be automatically inserted and retracted using XTrace 2's motorized linear stage.

New Feature

Advanced Safety Interlock

The status (open/close) of the SEM load lock chamber can be integrated in the XTrace 2 security circuit - this safety feature ensures that the X-ray shutter cannot be opened when the load lock chamber is open, keeping users safe from X-ray exposure. The advanced safety interlock is designed to work with various SEM models.

Accessory

Rapid Stage - Fast Elemental Mapping over Large Sample Areas

Rapid Stage is a modular piezo-based stage, specially designed to mount on top of the existing SEM stage, enabling high-speed elemental X-ray mapping “on the fly” over large areas with up to a speed of 4 mm/s.

The use of Rapid Stage allows for the acquisition of X-ray mapping data over a sample size of 50 x 50 mm (or higher), incorporating light element spectral data as well as trace element and/ or higher energy X-ray data in a fast and user-friendly workflow.

Both XTrace 2 and Rapid Stage are seamlessly integrated in ESPRIT software.