CRAIC Technologies, Inc.
San Dimas, CA 91773
New Vital Instrument is Ideal for Forensic Laboratories
Designed to determine the refractive index of glass. Uses thermal immersion method to measure the refractive index of microscopic glass fragments. Includes high resolution digital camera, optical interface, thermal stage, controlling electronics and rIQ 2.0™ software.
Read More »New Vital Instrument is Ideal for Forensic Laboratories
Designed to determine the refractive index of glass. Uses thermal immersion method to measure the refractive index of microscopic glass fragments. Includes high resolution digital camera, optical interface, thermal stage, controlling electronics- and rIQ 2.0⢠software.
Read More »New GeoImage Measuring System is Designed to Measure the Intensity of Light Reflected
Ideal for optical analysis of vitrinite and other macerals commonly found in coal, kerogen, and source rock. Determines the energy grade of these potential power sources rapidly and accurately. Used to test the suitability of coal blends for the manufacture of steel.
Read More »New GeoImage Measuring System is Designed to Measure the Intensity of Light Reflected
Ideal for optical analysis of vitrinite and other macerals commonly found in coal, kerogen, and source rock. Determines the energy grade of these potential power sources rapidly and accurately. Used to test the suitability of coal blends for the manufacture of steel.
Read More »Latest GeoImage Microphotometry Uses 2-Dimensional Imaging Detector
Offers autofocus capabilities and automated data collection. Designed to speed up the analytical testing process of vitrinite coals and source rock. Can be used to identify the material composition of the coal pellet through point or maceral counting.
Read More »Latest GeoImage Microphotometry Uses 2-Dimensional Imaging Detector
Offers autofocus capabilities and automated data collection. Designed to speed up the analytical testing process of vitrinite coals and source rock. Can be used to identify the material composition of the coal pellet through point or maceral counting.
Read More »New NIR Spectrophotometer Provides Thin Film Thickness of Microscopic Areas
Features CRAIC Technologies' Lightblades™ spectrophotometers and proprietary optical interface technologies. Can acquire spectra of microscopic sample areas by absorbance, reflectance, polarization, luminescence and fluorescence. Applications include characterization of new materials, and measurement of surface plasmon resonance, graphene, vitrinite reflectance of coal.
Read More »New NIR Spectrophotometer Provides Thin Film Thickness of Microscopic Areas
Features CRAIC Technologies' Lightblades™ spectrophotometers and proprietary optical interface technologies. Can acquire spectra of microscopic sample areas by absorbance, reflectance, polarization, luminescence and fluorescence. Applications include characterization of new materials, and measurement of surface plasmon resonance, graphene, vitrinite reflectance of coal.
Read More »New 20/30 PV Microspectrophotometer Features Solid State Lasers
Ability to acquire images of microscopic samples in the UV, visible and NIR regions. Used to develop the advanced materials, such as nanoparticles and carbon nanotubes to studying various types of biological samples. Features advanced UV-visible-NIR light sources, sensitive Lightblades™ spectrometers and sophisticated Lambdafire™ spectral software.
Read More »New 20/30 PV Microspectrophotometer Features Solid State Lasers
Ability to acquire images of microscopic samples in the UV, visible and NIR regions. Used to develop the advanced materials, such as nanoparticles and carbon nanotubes to studying various types of biological samples. Features advanced UV-visible-NIR light sources, sensitive Lightblades™ spectrometers and sophisticated Lambdafire™ spectral software.
Read More »New Vital Instrument is Ideal for Forensic Laboratories
Designed to determine the refractive index of glass. Uses thermal immersion method to measure the refractive index of microscopic glass fragments. Includes high resolution digital camera, optical interface, thermal stage, controlling electronics and rIQ 2.0™ software.
Read More »New Vital Instrument is Ideal for Forensic Laboratories
Designed to determine the refractive index of glass. Uses thermal immersion method to measure the refractive index of microscopic glass fragments. Includes high resolution digital camera, optical interface, thermal stage, controlling electronics- and rIQ 2.0⢠software.
Read More »New GeoImage Measuring System is Designed to Measure the Intensity of Light Reflected
Ideal for optical analysis of vitrinite and other macerals commonly found in coal, kerogen, and source rock. Determines the energy grade of these potential power sources rapidly and accurately. Used to test the suitability of coal blends for the manufacture of steel.
Read More »New GeoImage Measuring System is Designed to Measure the Intensity of Light Reflected
Ideal for optical analysis of vitrinite and other macerals commonly found in coal, kerogen, and source rock. Determines the energy grade of these potential power sources rapidly and accurately. Used to test the suitability of coal blends for the manufacture of steel.
Read More »Latest GeoImage Microphotometry Uses 2-Dimensional Imaging Detector
Offers autofocus capabilities and automated data collection. Designed to speed up the analytical testing process of vitrinite coals and source rock. Can be used to identify the material composition of the coal pellet through point or maceral counting.
Read More »Latest GeoImage Microphotometry Uses 2-Dimensional Imaging Detector
Offers autofocus capabilities and automated data collection. Designed to speed up the analytical testing process of vitrinite coals and source rock. Can be used to identify the material composition of the coal pellet through point or maceral counting.
Read More »New NIR Spectrophotometer Provides Thin Film Thickness of Microscopic Areas
Features CRAIC Technologies' Lightblades™ spectrophotometers and proprietary optical interface technologies. Can acquire spectra of microscopic sample areas by absorbance, reflectance, polarization, luminescence and fluorescence. Applications include characterization of new materials, and measurement of surface plasmon resonance, graphene, vitrinite reflectance of coal.
Read More »New NIR Spectrophotometer Provides Thin Film Thickness of Microscopic Areas
Features CRAIC Technologies' Lightblades™ spectrophotometers and proprietary optical interface technologies. Can acquire spectra of microscopic sample areas by absorbance, reflectance, polarization, luminescence and fluorescence. Applications include characterization of new materials, and measurement of surface plasmon resonance, graphene, vitrinite reflectance of coal.
Read More »New 20/30 PV Microspectrophotometer Features Solid State Lasers
Ability to acquire images of microscopic samples in the UV, visible and NIR regions. Used to develop the advanced materials, such as nanoparticles and carbon nanotubes to studying various types of biological samples. Features advanced UV-visible-NIR light sources, sensitive Lightblades™ spectrometers and sophisticated Lambdafire™ spectral software.
Read More »New 20/30 PV Microspectrophotometer Features Solid State Lasers
Ability to acquire images of microscopic samples in the UV, visible and NIR regions. Used to develop the advanced materials, such as nanoparticles and carbon nanotubes to studying various types of biological samples. Features advanced UV-visible-NIR light sources, sensitive Lightblades™ spectrometers and sophisticated Lambdafire™ spectral software.
Read More »