Advertisement

Radiophysics and Quantum Electronics

, Volume 62, Issue 6, pp 439–446 | Cite as

Synthetic Crystalline Quartz as an Optical Material for Power Optics

  • K. V. VlasovaEmail author
  • A. N. Konovalov
  • A. I. Makarov
  • N. F. Andreev
  • I. E. Kozhevatov
  • D. E. Silin
Article
First Online:
  • 4 Downloads

We present the results of studying Russian synthetic crystalline quartz from the viewpoint of the possibility of its use for manufacturing optical elements of power optics. The results of experimental studies of the absorption and optical nonuniformity of crystal plates with dimensions of 12 × 8 × 1.7 cm as well as theoretical calculations of the thermooptical parameter for the disk configuration of the measured samples, which determines the value of the phase distortions of the wave front of heating radiation, are reported.

This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. 1.
    D. E. Silin, I. E. Kozhevatov, E. H. Kulikova, et al., Instrum. Exp. Tech., 61, No. 3, 393 (2018).CrossRefGoogle Scholar
  2. 2.
    C. Ai, R. Knowlden, and J. Lamb, Proc. SPIE, 3134, 447 (1997).ADSCrossRefGoogle Scholar
  3. 3.
    D. E. Silin, I. E. Kozhevatov, E. H. Kulikova, et al., Instrum. Exp. Tech., 61, No. 3, 400 (2018).CrossRefGoogle Scholar
  4. 4.
    M. Born and E. Wolf, Principles of Optics, Cambridge Univ. Press, Cambridge (1999).CrossRefGoogle Scholar
  5. 5.
  6. 6.
    K. V. Vlasova, N. F. Andreev, and A. I. Makarov, Prikl. Fiz., No. 2, 79 (2017).Google Scholar
  7. 7.
    K. V. Vlasova, N. F. Andreev, A. I. Makarov, and A. Yu. Konstantinov, Usp. Prikl. Fiz., 5, No. 4, 313 (2017).Google Scholar
  8. 8.
    K. V. Vlasova, A. I. Makarov, N. F. Andreev, and A. Yu. Konstantinov, Appl. Opt., 57, No. 22, 6318 (2018).ADSCrossRefGoogle Scholar
  9. 9.
  10. 10.
    Y. A. Anan’ev and N. I. Grishmanova, Zh. Prikl. Spektrosk., 12, No. 4, 668 (1970).Google Scholar
  11. 11.
    T. S. Narasimhamurty, J. Opt. Soc. Am., 59, No. 6, 682 (1969).ADSCrossRefGoogle Scholar
  12. 12.
    P. Heyliger, H. Ledbetter, and S. Kim, J. Acoust. Soc. Am., 114, No. 2, 644 (2003).ADSCrossRefGoogle Scholar
  13. 13.
    R. W. Powell, C. Y. Ho, and P. E. Liley, Thermal Conductivity of Selected Materials, U.S. Dept. of Commerce, National Bureau of Standards, Washington (1966).CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media, LLC, part of Springer Nature 2019

Authors and Affiliations

  • K. V. Vlasova
    • 1
    Email author
  • A. N. Konovalov
    • 2
  • A. I. Makarov
    • 1
  • N. F. Andreev
    • 1
  • I. E. Kozhevatov
    • 1
  • D. E. Silin
    • 1
  1. 1.Institute of Applied Physics of the Russian Academy of SciencesNizhny NovgorodRussia
  2. 2.Limited Liability Company “Kvartsevye Tekhnologii”ShilovoRussia

Personalised recommendations

Cite article

Buy options