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Product Parameters
Specifications and Models | spectral range | FWHM | Number of spectral channels | Number of spatial channels | F | Spectral line bending | Color distortion |
Hyperspectral lenses | 400-1000nm | 2.8nm | 1200 | 1920 | 2.4 | 10um | 6um |
Product Introduction
Hyperspectral lenses are an indispensable key component in hyperspectral imaging spectrometers due to their excellent spectral information acquisition capabilities, high imaging speed, high spatial resolution, extensive data processing support, and application fields.
High resolution: Hyperspectral lenses typically have higher resolution, capturing more detailed information. This allows hyperspectral imaging systems to provide more accurate results when analyzing target objects.
Wide spectral range: Hyperspectral lenses can cover a wide spectral range, from visible light to infrared and other bands, allowing the system to obtain spectral information from more bands and improve analysis accuracy.
Integration of image and spectrum: Hyperspectral lenses can simultaneously capture images and spectral information of target objects. This "integration of image and spectrum" characteristic allows the system to more comprehensively describe the characteristics of target objects.
Product Parameters
Specifications and Models | spectral range | FWHM | Number of spectral channels | Number of spatial channels | F | Spectral line bending | Color distortion |
Hyperspectral lenses | 400-1000nm | 2.8nm | 1200 | 1920 | 2.4 | 10um | 6um |
Product Introduction
Hyperspectral lenses are an indispensable key component in hyperspectral imaging spectrometers due to their excellent spectral information acquisition capabilities, high imaging speed, high spatial resolution, extensive data processing support, and application fields.
High resolution: Hyperspectral lenses typically have higher resolution, capturing more detailed information. This allows hyperspectral imaging systems to provide more accurate results when analyzing target objects.
Wide spectral range: Hyperspectral lenses can cover a wide spectral range, from visible light to infrared and other bands, allowing the system to obtain spectral information from more bands and improve analysis accuracy.
Integration of image and spectrum: Hyperspectral lenses can simultaneously capture images and spectral information of target objects. This "integration of image and spectrum" characteristic allows the system to more comprehensively describe the characteristics of target objects.