|
|
|
|
Список литературы
|
|
| |
| 1. |
Gershun A, “The light field”, Journal of Mathematics and Physics, 18:1–4 (1939), 51–151   |
| 2. |
An introduction to ray tracing, ed. Glassner AS, Academic Press, New York, 1989 |
| 3. |
Welford WT, Aberrations of optical systems, Taylor & Francis, 1986 |
| 4. |
Born M, Wolf E, Principles of optics. Electromagnetic theory of propagation, interference and diffraction of light, 6th, Pergamon Press, Oxford, 1980  |
| 5. |
Freniere ER, Gregory GG, Hassler RA, “Edge diffraction in Monte Carlo ray tracing”, Proc SPIE, 3780 (1999), 151–157 |
| 6. |
Cuypers T, Horstmeyer R, Oh SB, Bekaert P, Raskar R, “Validity of the Wigner distribution function for ray-based imaging”, 2011 IEEE Int Conf on Computational Photography (ICCP), 2011, 1–9 |
| 7. |
Oh SB, Kashyap S, Garg R, Chandran S, Raskar R, “Rendering wave effects with augmented light field”, Comput Graph Forum, 29:2 (2010), 507–516 |
| 8. |
Mout M, Wick M, Bociort F, Petschulat J, Urbach P, “Ray tracing the Wigner distribution function for optical simulations”, Opt Eng, 57:1 (2018), 014106 |
| 9. |
Mout BM, Wick M, Bociort F, Urbach HP, “A Wigner-based ray-tracing method for imaging simulations”, Proc SPIE, 9630 (2015), 96300Z |
| 10. |
Anan'ev YuA, Optical resonators and laser beams, “Nauka” Publishers, Moscow, 1990 |
| 11. |
Siegman AE, Lasers, University Science Books, Mill Valley, CF, 1986 |
| 12. |
Fox AG, Li T, “Resonant modes in a maser interferometer”, Bell Syst Tech J, 40:2 (1961), 453–488 |
| 13. |
Pakhomov II, Tsibulya AB, Design of optical system and laser instruments, “Radio i Svyaz” Publisher, Moscow, 1986 (in Russian) |
| 14. |
Kravtsov YuA, “Complex rays and complex caustics”, Radiophysics and Quantum Electronics, 10:9–10 (1967), 719–730 |
| 15. |
Keller JB, Streifer W, “Complex rays with an application to Gaussian beams”, J Opt Soc Am, 61:1 (1971), 40–43 |
| 16. |
Egorchenkov RA, Kravtsov YuA, “Numerical implementation of complex geometrical optics”, Radiophysics and Quantum Electronics, 43:7 (2000), 569–575 |
| 17. |
Rodionov SA, Chzhu VD, Chzhun MS, “The optics of nonhomocentric light beams”, J Opt Technol, 64:8 (1997), 722–724 |
| 18. |
Joo WD, “General conception of a Gaussian light beam”, Proc SPIE, 2778 (1996), 27780Y |
| 19. |
Joo W-D, Jung M-S, Rodionov SA, “Geometrical concept of the propagation of general Gaussian beams”, Opt Commun, 206:4–6 (2002), 319–326 |
| 20. |
Ilinsky RE, “Use of the geometrical-optics analogy in calculation of losses in a connector of two single-mode fibers”, Optics and Spectroscopy, 97:1 (2003), 149–154 |
| 21. |
Ilinsky RE, “A geometrical-optics analogue of a single mode Hermite-Gaussian beam”, Journal of Radio Electronics, 4, Online (2013), 1–13 http://jre.cplire.ru/jre/apr13/2/text.pdf (in Russian) |
| 22. |
Gitin AV, “Radiometry. A complex approach”, J Opt Technol, 65:2 (1998), 132–140 |
| 23. |
Gauss CF, Dioptrische Untersuchungen, Druck und Verlag der Dieterichschen Buchhandlung, Göttingen, 1841 |
| 24. |
Collins SA, “Lens-system diffraction integral written terms of matrix optics”, J Opt Soc Am, 60:9 (1970), 1168–1177 |
| 25. |
Epatko IV, Serov RV, “Advantage of Fast Fourier Interpolation for laser modeling”, Journal de Physique IV, 133:1 (2006), 679–682 |
| 26. |
Solov'ev DA, Serov RV, “Calculation of the spherical aberration of a lens in the problems of propagation of laser radiation in optical systems”, Optics and Spectroscopy, 91:2 (2001), 317–323 |
| 27. |
Jahnke E, Emde F, Lösch F, Tables of higher functions, McGraw-Hill Book Co, New York, 1960 |
| 28. |
Abramowitz M, Stegun IA, Handbook of mathematical functions, Dover, New York, 1965 |
