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Chinese Optics Letters

Chinese Optics Letters

| PUBLISHED MONTHLY BY CHINESE LASER PRESS AND DISTRIBUTED BY OSA

  • Vol. 11, Iss. 2 — Feb. 1, 2013
  • pp: 022001–

Integrated ef fective emissivity computation for non-isothermal non-axisymmetric cavities

Dong Liu, Yuanyuan Duan, and Zhen Yang  »View Author Affiliations


Chinese Optics Letters, Vol. 11, Issue 2, pp. 022001- (2013)


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Abstract

Non-axisymmetric cavities are widely used as standard blackbody sources for radiation thermometry. The integrated effective emissivity is central to the blackbody design. Integrated effective emissivities are numerically calculated for non-isothermal, non-axisymmetric cavities. The average relative deviation is 0.087% when compared with Monte-Carlo results, indicating that this method can accurately calculate the integrated effective emissivities for non-isothermal, non-axisymmetric cavities. The effects of the wavelength, temperature uniformity, and bottom inclination angle are then analyzed.

© 2013 Chinese Optics Letters

OCIS Codes
(120.0120) Instrumentation, measurement, and metrology : Instrumentation, measurement, and metrology
(200.0200) Optics in computing : Optics in computing

Citation
Dong Liu, Yuanyuan Duan, and Zhen Yang, "Integrated ef fective emissivity computation for non-isothermal non-axisymmetric cavities," Chin. Opt. Lett. 11, 022001- (2013)
http://www.opticsinfobase.org/col/abstract.cfm?URI=col-11-2-022001


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References

  1. R. P. Heinisch, E. M. Sparrow, and N. Shamsund, J. Opt. Soc. Am. 63, 152 (1973).
  2. A. Ono, J. Opt. Soc. Am. 70, 547 (1980).
  3. Z. Chu, J. Dai, and R. E. Bedford, AIP Conf. Proc. Temperature: Its Measurement and Control in Science and Industry 907 (1992).
  4. V. I. Sapritsk and A. V. Prokhorov, Metrologia 29, 9 (1992).
  5. M. J. Ballico, Metrologia 32, 259 (1996).
  6. V. I. Sapritsky and A. V. Prokhorov, Appl. Opt. 34, 5645 (1995).
  7. J. Hartmann, D. R. Taubert, and J. Fischer, in Proceedings of 7th International Symposium on Temperature and Thermal Measurements in Industry and Science 511 (1999).
  8. A. S. Nester and J. R. Mahan, Proc. SPIE 4710, 9 (2002).
  9. H. C. McEvoy, G. Machin, R. Friedrich, J. Hartmann, and J. Hollandt, AIP Conf. Proc. Temperature: Its Measurement and Control in Science and Industry 909 (2003).
  10. J. Ishii, M. Kobayashi, and F. Sakuma, Metrologia 35, 175 (1998).
  11. Y. Te, P. Jeseck, C. Camy-Peyret, S. Payan, S. Briaudeau, and M. Fanjeaux, Metrologia 40, 24 (2003).
  12. H. Zhang and J. Dai, Chin. Opt. Lett. 4, 306 (2006).
  13. U. Mester and P. Winter, Proc. SPIE 4360, 372 (2001).
  14. J. Ishii and A. Ono, Meas. Sci. Technol. 12, 2103 (2001).
  15. J. Ishii, T. Fukuzaki, T. Kojima, and A. Ono, in Proceedings of 8th International Symposium on Temperature and Thermal Measurements in Industry and Science 729 (2001).
  16. H. McEvoy, R. Simpson, and G. Machin, Proc. SPIE 5405, 54 (2004).
  17. A. Diril, H. Nasibov, and S. Ugur, AIP Conf. Proc. Temperature: Its Measurement and Control in Science and Industry 663 (2003).
  18. A. V. Prokhorov and L. M. Hanssen, Metrologia 41, 421 (2004).
  19. A. V. Prokhorov and L. M. Hanssen, Metrologia 47, 33 (2010).
  20. Y. Duan, D. Liu, J. Wang, and Z. Yang, J. Therm. Sci. Technol. 11, 125 (2012).

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