Прецизионные низко- и среднетемпературные модели черного тела для радио- и радиационной термометрии

The article focuses on low and medium temperature black body models with operating temperatures 80-1200 K, operating as part of verification systems for preflight calibration of optical radiometric on-board space equipment of infrared wavelength range. The radiation sources with tunable temperature based on fixed temperatures points of phase transitions of melting-solidification of Ga, In, and binary metal eutectic alloys are described.

радио-, фото- и оптическая термометрия, температурная шкала, модель черного тела, radio-, photo-, optical thermometry, temperature scale, black body model

1. Огарев С. А., Хлевной Б. Б., Самойлов М. Л., Отряскин Д. А., Григорьева И. А., Солодилов М. В., Саприцкий В. И. Высокотемпературные модели черного тела, разработанные во ВНИИОФИ для фотометрии, радиометрии и радиационной термометрии // Измерительная техника. 2015. В этом же номере журнала. С.

2. Sapritsky V. I., Ogarev S. A., Khlevnoy B. B., Samoylov M. L., Khromchenko V. B. Blackbody sources for the range 100 K to 3500K for precision measurements in radiometry and thermometry, in TEMPERATURE: Its Measurement and Control in Science and Industry; Eighth Temperature Symposium // AIP Conf. Proc. 684. 2003. V. VII. P. 619-624.

3. Sapritsky V. I., Ogarev S. A., Khlevnoy B. B., Samoylov M. L., Khromchenko V. B., Morozova S. P. Dissemination of Ultra-Precise Measurements in Radiometry and Remote Sensing within 100…3500K Temperature Range on the Base of Blackbody Sources developed in VNIIOFI // Proc. of SPIE. 2002. V. 4818. P. 127-136.

4. Hartmann J., Hollandt J., Khlevnoy B., Morozova S., Ogarev S. Sakuma F. Blackbody and Other Calibration Sources // Radiometric Temperature Measurements. I. Fundamentals / Eds. Z. M. Zhang, B. K.Tsai, G. Machin. V. 42. Experimental Methods in the Physical Sciences. 2009. P. 241-295.

5. Morozova S. P., Parfentiev N. A., Lisiansky B. E., Sapritsky V. I., Dovgilov N. L., Melenevsky U. A., Gutschwager B., Monte C., Hollandt J. Vacuum Variable Temperature Blackbody VLTBB100 // Int. J. Thermophys. 2008. V. 29. N. 1. P. 341-351.

6. Morozova S. P., Parfentiev N. A., Lisiansky B. E., Melenevsky U. A., Gutschwager B., Monte C., Hollandt J. Vacuum Variable Medium Temperature Blackbody // Int. J. Thermophys. 2010. V. 31. N. 8-9. P. 1809-1820.

7. Morozova S. P., Lisyanskiy B. E., Stakharny A. A., Samoilov M. L., Ogarev S. A., Yong Shim Yoo, Chul-Woung Park, Seung-Nam Park. Low temperature blackbodies for temperature range from -60 °C up to 90 °C// Proc. Int. Symp. Temperature, Humidity, Moisture and Thermal Measurements in Industry and Science (TEMPMEKO & ISHM). 2010.

8. Sapritsky V. I. National Primary Radiometric Standards of the USSR // Metrologia. 1990. V. 27. N. 1. P. 53-60.

9. Sapritsky V. I. Black-body radiometry // Metrologia. 1995. V. 32. N. 6. P. 411-417.

10. Persky M. J. Review of black surfaces for space-borne infrared systems// Rev. Sci. Instrum. 1999. V. 70. N. 5. P. 2193-2217.

11. STEEP 3. Version 1.3, User’s Guide. Virial International, LLC, 2000.

12. Yoon H. W., Gibson C. E., Gardner J. L. Spectral radiance comparison of two blackbodies with temperatures determined using absolute detectors and ITS-90 techniques // Temperature: Its Measurement and Control in Science and Industry: Proc. 8th Int Temp. Symp. // AIP Conf. Proc. 684. Chicago (USA), 2003. V. VII. P. 601-606.