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Infrared cameras for scientific applications
Simplifying your research
Xenics’ advanced infrared cameras feature high quality and high performance in all major IR wavelength ranges for the most demanding research applications. Even detection of temperature differences as small as 0.05°C is possible. In combination with the powerful and fast Xenics analysis and data acquisition software we can offer solutions that suit your specific requirements and simplify your research.
Applications
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Art inspectionArt historians are using Xenics Near Infrared (NIR) cameras to study underdrawings of paintings because they are easy-to-use, compact and do not need extensive cooling. |
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Hyperspectral imagingDue to their high resolution and broadband nature, near infrared (NIR) cameras are perfectly suited for hyperspectral analysis. With thermo-electrical cooling they can even be operated up to 2.5 um. |
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Laser beam profilingFor laser beam profiling applications you will need good measurement linearity, resolution, stability and a high damage threshold for incident power, all supported by a broad range of Xenics InGaAs and MCT infrared cameras. |
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Medical infraredResearchers have unveiled many exciting medical applications with thermal infrared imaging. Xenics infrared imaging cameras will provide you with detailed information because they have high resolution and utmost sensitivity. |
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Semiconductor inspectionSemiconductor manufacturers have to meet ever tighter cost constraints. Research with SWIR cameras provide valuable information about process stability and quality assurance measurements. They perfectly match the spectrum of low-level photon emissions caused by semiconductor grid defects. |
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Thermal infrared imagingXenics thermal infrared imaging cameras provide researchers utmost accurate measurements where performance is critical. |
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Discover which cameras could suit your needs
| XS-1.7-320 | Xeva-1.7-320 |
| Flexibility for easy research | Advanced research in SWIR imaging |
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| Xeva-1.7-640 | Lynx |
| Advanced research in SWIR imaging | 40Khz High speed SWIR line-scan camera |
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| Cheetah-640CL | Xeva-2.5-320 |
| World's fastest InGaAs camera | Flexible SWIR imaging camera up till 2.5 µm |
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| Onca-MWIR-MCT-640 | Onca-MWIR-MCT-320 |
| Stable measurements with thermal imaging | Stable measurements with thermal imaging |
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| Onca-MWIR-InSb-640 | Onca-MWIR-InSb-320 |
| Stable measurements with thermal imaging | Stable measurements with thermal imaging |
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| Gobi-384 | Gobi-640 |
| Uncooled smart thermal camera | High resolution uncooled thermal camera |
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| Gobi-640-GigE | Onca-LWIR-MCT-384 |
| High resolution uncooled thermal camera | Multispectral longwave thermal infrared camera |
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| Onca-LWIR-QWIP-384 | |
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Stable long term operating with longwave thermal imaging |
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More info
Configuration
All our infrared cameras are flexible in terms of frame rate, user interface and temperature range. They always come with state-of-the-art technology including a large dynamic range, real-time electronics and the most advanced ROICs (read-out integrated circuits). They can be delivered with a mid format (320x256) or a large format (640x512) detector resolution with exceptional sensitivity, accuracy, including extremely fast frame rates with user programmable integration times. Some models also offer user defined sub-windowing modes as well as an internal filter wheel for sub-spectral range viewing.
