Cracking the Code of Geochemical Analysis The Potential of Hyperspectral Imaging and LIBS Scanning Systems

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Accuracy and efficiency are critical in the fields of geochemical, geological, mineralogical, and material analysis. Instruments that can deliver multi-elemental chemical analysis in real-time with unmatched accuracy are sought after by both industry and researchers. Modern technologies like hyperspectral imaging and laser-induced breakdown spectroscopy (LIBS) scanning systems have been made possible by this pursuit of analytical perfection. Leading the way in this innovation is ELEMISSION, which provides highly customized and optimized analyzers made to maximize value from a variety of sample types.

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Understanding the Technology

LIBS Scanning Systems:

LIBS technology operates on the principle of laser-induced plasma emission spectroscopy. By directing a high-energy laser pulse onto a sample’s surface, it generates a microplasma, causing atoms to emit characteristic wavelengths of light. These emissions are then analyzed to determine the elemental composition of the sample. What sets LIBS apart is its ability to provide rapid, real-time results without the need for extensive sample preparation.

Hyperspectral Imaging:

Hyperspectral imaging involves capturing and processing information from across the electromagnetic spectrum. This technique enables the identification and characterization of materials based on their spectral signatures. In the context of geochemical analysis, hyperspectral imaging allows for detailed mapping of mineralogical compositions and spatial distributions within samples.

Introducing ECORE: The Revolutionary Core Scanner

ECORE, developed by ELEMISSION, represents a paradigm shift in core scanning technology. By integrating advanced geochemical laser ablation sensors with automation expertise, ECORE offers unparalleled efficiency and accuracy in on-site workflow management. Researchers can analyze core samples in real-time, tailored to their specific requirements, simply by placing the core tray and initiating the process.

Ecore: Laser Core Scanner
Ecore: Laser Core Scanner

Unlocking the True Potential of ECORE

1. Laser-Powered Drill Core Analysis:

ECORE leverages powerful laser technology to perform rapid, multi-elemental quantitative analysis of drill core samples. This capability enables researchers to extract comprehensive insights into geological formations and mineral compositions with exceptional speed and precision.

2. Ultra-Fast Automated Mineralogy:

With ECORE, automated mineralogy reaches new heights of efficiency. The system can swiftly identify and quantify mineral constituents within samples, facilitating detailed mineralogical characterization and texture analysis in a fraction of the time required by conventional methods.

3. Elemental Deportation Study:

By conducting elemental deportation studies, ECORE enables researchers to investigate the distribution and migration of elements within geological matrices. This functionality is invaluable for understanding processes such as mineral alteration, ore deposition, and fluid-rock interactions.

4. Streamlined Workflow:

ECORE streamlines the analytical workflow with its user-friendly interface and rapid data acquisition capabilities. Researchers can obtain actionable insights within minutes, accelerating decision-making processes and driving productivity in both research and industrial settings.


Q: Is sample preparation required for analysis with ECORE?

A: No, ECORE eliminates the need for extensive sample preparation, enabling rapid analysis of raw core samples.

Q: What types of materials can be analyzed using ECORE?

A: ECORE is capable of analyzing a wide range of geological, mineralogical, and material samples, including drill cores, pellets, and rock specimens.

Q: How does ECORE ensure data accuracy and reliability?

A: ECORE employs state-of-the-art calibration algorithms and quality control measures to ensure the accuracy and reliability of analysis results.

Q: Can ECORE be customized to specific research requirements?

A: Yes, ECORE offers flexibility in experimental design, allowing researchers to tailor analysis parameters to their unique needs and objectives.


In the pursuit of comprehensive geochemical analysis, ELEMISSION’s ECORE sets a new standard of excellence. By harnessing the power of LIBS scanning systems and hyperspectral imaging, ECORE empowers researchers and industries to unlock the true potential of their samples. With its unmatched speed, accuracy, and versatility, ECORE heralds a new era of innovation in real-time chemical sensing and multi-elemental analysis.

Some other partners are also listed below for LIBS and hyperspectral imaging:

hyperspectral imaging

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