Low- and mid-temperature blackbody models with operating temperatures in the range 80–1200 K are considered. These types of models function as components of verification systems for preflight calibrations of onboard optical radiometric space equipment operating in the infrared range of wavelengths. Radiation sources with tunable temperature and models based on fixed reference temperature points of the melting–solidification phase transitions of Ga and In are described.
Similar content being viewed by others
References
S. A. Ogarev, B. B. Khlevnoy, M. L. Samoilov, et al., “High-temperature blackbody models for photometry, radiometry, and radiation thermometry,” Izmer. Tekhn., No. 11, 51–54 (2015).
V. I. Sapritsky, S. A. Ogarev, B. B. Khlevnoy, et al., “Blackbody sources for the range 100 K to 3500 K for precision measurements in radiometry and thermometry,” AIP Conf. Proc., 684, 619–624 (2003).
V. I. Sapritsky, S. A. Ogarev, B. B. Khlevnoy, et al., “Dissemination of ultra-precise measurements in radiometry and remote sensing within 100–3500 K temperature range on the base of blackbody sources developed at VNIIOFI,” Proc. SPIE, 4818, 127–136 (2002).
J. Hartmann, J. Hollandt, B. Khlevnoy, et al., “Blackbody and other calibration sources,” Exp. Meth. Phys, Sci,, 42, 241–295 (2009).
S. P. Morozova, N. A. Parfentiev, B. E. Lisiansky, et al., “Vacuum variable temperature blackbody VLTBB 100,” Int. J. Thermophys., 29, No. 1, 341–351 (2008).
S. P. Morozova, N. A. Parfentiev, B. E. Lisiansky, et al., “Vacuum variable medium temperature blackbody,” Int. J. Thermophys., 31, No. 8–9, 1809–1820 (2010).
S. P. Morozova, B. E. Lisyanskiy, A. A. Stakharny, et al., “Low temperature blackbodies for temperature range from –60°C up to 90°C,” Int. J. Thermophys., 32, No. 11, 2544–2559 (2011).
V. I. Sapritsky, “National primary radiometric standards of the USSR,” Metrologia, 27, No. 1, 53–60 (1990).
V. I. Sapritsky, “Black-body radiometry,” Metrologia, 32, No. 6, 411–417 (1995).
M. Persky, “Review of black surfaces for space-borne infrared systems,” Rev. Sci. Instrum., 70, No. 5, 2193–2217 (1999).
STEEP 3. Version 1.3. User’s Guide, Virial Int., LLC (2000).
H. W. Yoon, C. E. Gibson, and J. L. Gardner, “Spectral radiance comparison of two blackbodies with temperatures determined using absolute detectors and ITS-90 technique,” AIP Conf. Proc., 684, 601–606 (2003).
The present study was carried out on a system used for precision measurements of the radio- and spectro-radiometric characteristics of sources and detectors of radiation in the spectral range 1–20 mμ with the support of the Ministry of Education and Science of Russia (Agreement No. 14.592.21.0001, August 22, 2014; unique identifier of research RFMEFI59214X0001).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Izmeritel’naya Tekhnika, No. 11, pp. 48–51, November, 2015.
Rights and permissions
About this article
Cite this article
Ogarev, S.A., Khlevnoi, B.B., Lisyanksii, B.E. et al. Low- and Mid-Temperature Precision Blackbody Models for Radiometry and Radiation Thermometry. Meas Tech 58, 1250–1254 (2016). https://doi.org/10.1007/s11018-016-0879-3
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11018-016-0879-3