Featured Product
This Week in Quality Digest Live
Metrology Features
Kari Miller
An effective strategy requires recruiting qualified personnel familiar with the process and technology
Zach Winn
Optical milk scanner uses materials-sensing technology to measure the health of cows
Samuel Lesko
Surface metrology tools must both measure and automatically generate and save reports
Anil More
After 80 years, this measurement method is still as precise and easy as ever
Greg Fiumura
NIST evaluates the biometric software that allows you to open your phone with a fingerprint

More Features

Metrology News
Powder reuse schemes affect medical device performance
Upgraded with blue laser technology
Demonstrating fast, accurate wireless measurement data acquisition
With block-based editor, anyone can realize projects using AI-based image processing
Improves productivity as much as 40 percent
Designed for technicians, engineers, students, and scientists working in fields where surface texture is important
Designed for high-volume production environments
Allows for rapid in-process verification of parts
Tomorrow’s metrology is the science of measurement for the digital economy

More News

Quality Digest

Metrology

EDAX Introduces the Clarity Super EBSD Analysis System

First commercially available, direct detector system designed for EBSD applications

Published: Tuesday, March 1, 2022 - 12:59

(EDAX: Mawah, NJ) -- EDAX, a leader in X-ray microanalysis and electron diffraction instrumentation, has added the Clarity Super to its electron backscatter diffraction (EBSD) product line. The Clarity EBSD Detector Series is the first commercially available, direct detector system designed for EBSD applications.

The series includes the original Clarity, now called the Clarity Plus, and the new Clarity Super. By using innovative technology, both Clarity detectors provide single-electron detection, zero noise, superior signal-to-noise, and high dynamic range performance. These revolutionary systems provide high-fidelity EBSD pattern quality and unparalleled sensitivity.

Both systems are optimized for high performance across a broad range of voltages, with an emphasis on efficient data collection down to a 7 kV beam energy. These conditions are used to analyze ceramics and semiconductor materials, where lower beam currents are required, or for applications like HR-EBSD, where superior EBSD pattern quality is required. The Clarity Super’s sensor extends the energy sensitivity down to 3 kV beam energy while maintaining a high sensitivity. This performance is ideal for beam-sensitive samples and fine-grained materials, where improved spatial resolution is required.

“We’re very excited to announce the addition of the Clarity Super to our EBSD product line,” says Matt Nowell, EBSD’s product manager. “Collecting EBSD data efficiently at lower voltages has been a target for the EBSD market for many years. By optimizing our direct detection sensor, customers can now acquire EBSD information at both lower beam energies and beam currents, which is ideal for beam-sensitive samples like perovskite organic-inorganic solar cells and ceramic materials. This detector enables our customers to collect previously unobtainable data.”

Clarity Super Detector

Improved performance at lower voltages is beneficial for crystallographic characterization. It reduces the interaction volume of the incident electron beam within the sample and offers improved spatial resolution. This can extend the performance of EBSD down to nanometer-scale structures. Lower beam energies also reduce the charging effects when analyzing nonconductive or semi-conductive materials. Users won’t have to use conductive coatings or low-vacuum mode to analyze these materials, which will produce higher quality EBSD patterns. Lower-voltage operations also reduce specimen damage in beam-sensitive materials, facilitating operation that wouldn’t be possible at higher beam energies.

The Clarity EBSD Series detectors remove the traditional phosphor and optics from the collection path, resulting in sharper EBSD patterns with higher sensitivity. Powered by this technology, Clarity is optimized for applications where traditional EBSD analytical conditions aren’t viable for quality results.

This new addition to the EDAX portfolio of EBSD detectors offers users a unique option for high-quality EBSD collection and mapping to resolve crystallographic microstructures and solve materials characterization challenges quickly and easily.

For further information, visit www.edax.com or email EDAX at info.edax@ametek.com.

About EDAX

EDAX is an acknowledged leader in energy dispersive microanalysis, electron backscatter diffraction, and X-ray fluorescence instrumentation. EDAX designs, manufactures, installs, and services high-quality products and systems for leading companies in the semiconductor, metals, geological, pharmaceutical, biomaterials, and ceramics markets.

Since 1962, EDAX has used its knowledge and experience to develop ultra-sensitive silicon radiation sensors, digital electronics, and specialized application software that facilitate solutions to research, development, and industrial requirements.

EDAX is a business unit in the Material Analysis Division of AMETEK, a global manufacturer of electronic instruments and electromechanical devices.

For further information about EDAX, contact:
Jonathan McMenamin
EDAX, LLC
91 McKee Drive, Mahwah, NJ 07430
Tel: (201) 529–4880 • Fax: (201) 529–3156
Email: jonathan.mcmenamin@ametek.com
Website: www.edax.com

Discuss

About The Author

Quality Digest’s picture

Quality Digest

For 40 years Quality Digest has been the go-to source for all things quality. Our newsletter, Quality Digest, shares expert commentary and relevant industry resources to assist our readers in their quest for continuous improvement. Our website includes every column and article from the newsletter since May 2009 as well as back issues of Quality Digest magazine to August 1995. We are committed to promoting a view wherein quality is not a niche, but an integral part of every phase of manufacturing and services.