Xradia develops technology to help advance innovation in science and industry by providing unique insight through superior X-ray imaging solutions. Xradia products utilize advanced X-ray computed tomography (CT) imaging methodology and optics to nondestructively produce 3D images of objects with exceptional spatial resolution and contrast. Xradia adds a new dimension to ever more sophisticated evolutions in imaging techniques including light and electron microscopes and scanning probes. Xradia VersaXRM and UltraXRM product families combine with other imaging modalities to provide a multi length scale imaging solution spanning from centimeters, to angstroms in resolution.
With over 50 synchrotron and lab systems in the field, Xradia's imaging products are widely accepted by the scientific research community and the industry. Building on Xradia earlier success in advanced semiconductor packaging development and failure analysis applications, we have a fast growing installed base in other application segments. Xradia's 3D imaging products have been implemented successfully in biomedical and life science research, rock physics modeling for oil and gas exploration, nano-imaging applications, and advanced material development and characterization.
Xradia's technology is based on proprietary X-ray optics and detectors. Xradia produces state-of-the-art far-field ambient environment imaging systems capable of 3D imaging with resolution below 50 nm. Xradia's commercial products have 3D resolution from the nanometer level up to several hundred microns.
Xradia is recognized as the sole supplier of innovative nanoscale 2D and 3D X-ray imaging solutions and is regarded as the leading supplier of the latest generation of 3D X-ray imaging systems with micrometer scale resolution.
Solder Bump Technologies Analysis Using 3D Metrology
Characterization of Through Silicon Vias (TSVs) for the Semiconductor Industry
Thermal Barrier Coating (TBC) Microstructural Characterization
Determining Crack Mechanisms and Crack Geometry in Cement-Based Building Materials
Using 3D X-Ray Microscopy (XRM) to Determine the Morphology of Superconducting Materials (MgB2)
Image Sampling in Natural States and Stressed Conditions Using Non-Destructive Testing (NDT)
High Resolution X-Ray Microscopy Uses in the Mineral Processing Industry
X-Ray Microscopy Analysis (XRM) Of Fiber-Reinforced Composite Materials
Identifying Failures (Bump Cracks and Voids) Within Advanced 3D Packages for Semiconductors
XRM Characterization for Determining the Reliability of Wire Bond Packaging Processes
Using 3D X-Ray Microscopy (XRM) to Determine the 3D Morphology of Solid Foams
Temporal Analysis of the Microstructure of Electrodes Using 3D X-Ray Microscopy (XRM)
XRM Multi-Length Scale Solutions for the Development of Carbon Fibers
Using 3D X-Ray Microscopes for Carbon (CO2) Sequestration Experiments
XRM Analysis of Carbonate Rocks for the Oil and Gas Industry
Producing Economically Viable Solid Oxide Fuel Cells (SOFCs)
ZEISS Offers New Autoloader for 3D X-ray Imaging
Zeiss Completes Acquisition of Xradia, Inc
Xradia Extends X-ray Microscopy to Advance Pursuit of Discovery Previously Unachievable with Lab-based Imaging
Cornell University to Receive the First VersaXRM-520 X-Ray Microscope from Xradia, Inc.
Xradia VersaXRM 3D X-ray Microscope Enables Synchrotron-Quality Research
Xradia Introduces VersaXRM-410 3D X-ray Imaging for Nondestructive Microstructure Characterization
Xradia, Inc. Announces the Release of its New Scout-and-Scan Control Software for VersaXRM Instruments
3D X-Ray Microscopy Solutions from Xradia
Technology in Action - Dr Philip Withers and His Xradia (Now Zeiss) VersaXRM - EPSRC
Xradia 3D X-Ray Microscopy Solutions - Dr Arno Merkel