Licht-im-Terrarium: Literaturdatenbank |
Rozenstein, O., Devir, A., & Karnieli, A. (2014). In-field absolute calibration of ground and airborne vis-nir-swir hyperspectral point spectrometers. Remote Sensing, 6(2), 1158–1170. Added by: Sarina (2024-07-27 07:23:11) |
Resource type: Journal Article DOI: 10.3390/rs6021158 ID no. (ISBN etc.): 2072-4292 BibTeX citation key: Rozenstein2014 View all bibliographic details |
Categories: Englisch = English Creators: Devir, Karnieli, Rozenstein Collection: Remote Sensing |
Views: 8/500 Views index: % Popularity index: 21.25% |
Abstract |
Spectrometer calibration and measurements of spectral radiance are often required when performing ground, aerial, and space measurements. While calibrating a spectrometer in the field using an integrating sphere is practically unachievable, calibration against a quartz halogen (QH) lamp is a quite easy and feasible option. We describe a calibration protocol whereby a professional QH lamp, operating with a stabilized current source, is first calibrated in the laboratory against a US National Institute of Standards and Technology (NIST) traceable integrating sphere and, then, used for the field calibration of a spectrometer before a ground or airborne campaign. Another advantage of the lamp over the integrating sphere is its ability to create a continuous calibration curve at the spectrometer resolution, while the integrating sphere is calibrated only for a few discrete wavelengths. A calibrated lamp could also be used for a secondary continuous calibration of an un-calibrated integrating sphere.
Added by: Sarina |