The study on trichromatic optical fiber radiation thermometers is especially useful for the non-contact accurate temperature measurement of those materials with the emissivities changing dramatically with wavelength.O...The study on trichromatic optical fiber radiation thermometers is especially useful for the non-contact accurate temperature measurement of those materials with the emissivities changing dramatically with wavelength.On the basis of the trichromatic thermometry principle,the operation wavelengths of the thermometer are selected properly so as to compensate the emissivity influence on measurement result effectively. Using 1×3 branching fiber coupler and narrow band filter significantly improves the instrument reliability.The instrument is self-calibrated,multi -functional and easy touse due to the embodied microcontroller and some other techniques.展开更多
Simultaneous multicolor photometry of fast-moving objects is discussed in this paper. In conventional astronomical photometry, the accuracy of flux and color indices of fast-moving objects is affected by the variation...Simultaneous multicolor photometry of fast-moving objects is discussed in this paper. In conventional astronomical photometry, the accuracy of flux and color indices of fast-moving objects is affected by the variations of the targets and weather conditions in space and time domains.We optimize related techniques and methods of observation and data reduction, including image cal- ibration, background fitting, targets detection and location, isophotal photometry, and flux calibration by using background stars from different fields. We consider that simultaneous multicolor data acquisition and differential flux calibration are critical for improving photometric accuracy of fast-moving objects. Our results show the photometric accuracy is better than 5% based on the observations carried out by a 1-meter telescope under ordinary, non-photometric conditions.展开更多
文摘The study on trichromatic optical fiber radiation thermometers is especially useful for the non-contact accurate temperature measurement of those materials with the emissivities changing dramatically with wavelength.On the basis of the trichromatic thermometry principle,the operation wavelengths of the thermometer are selected properly so as to compensate the emissivity influence on measurement result effectively. Using 1×3 branching fiber coupler and narrow band filter significantly improves the instrument reliability.The instrument is self-calibrated,multi -functional and easy touse due to the embodied microcontroller and some other techniques.
文摘Simultaneous multicolor photometry of fast-moving objects is discussed in this paper. In conventional astronomical photometry, the accuracy of flux and color indices of fast-moving objects is affected by the variations of the targets and weather conditions in space and time domains.We optimize related techniques and methods of observation and data reduction, including image cal- ibration, background fitting, targets detection and location, isophotal photometry, and flux calibration by using background stars from different fields. We consider that simultaneous multicolor data acquisition and differential flux calibration are critical for improving photometric accuracy of fast-moving objects. Our results show the photometric accuracy is better than 5% based on the observations carried out by a 1-meter telescope under ordinary, non-photometric conditions.
