Influence of the pump wave rotation and divergence on the spatial selectivity of a four-wave radiation converter in a transparent two-component medium
V.V. Ivakhnik, M.V. Savelyev

 

Samara State Aerospace University

Full text of article: Russian language.

Abstract:
The spatial selectivity of the degenerate four-wave radiation converter in a transparent two-component medium based on the electrostriction and Dufour effect has been analyzed as a function of the rotation and divergence of pump waves. Expressions connecting most efficiently the converted spatial frequency bandwidth with the rotation angle and divergence of pump waves has been obtained.

Keywords:
spatial selectivity, four-wave radiation converter, transparent two-component medium.

Citation:
Ivakhnik VV, Savelyev MV. Influence of the pump wave rotation and divergence on the spatial selectivity of a four-wave radiation converter in a transparent two-component medium. Computer Optics 2016; 40(1): 19-25. DOI: 10.18287/2412-6179-2016-40-1- 19-25.

References:

  1. Dmitriev VG. Nonlinear optics and wavefront reversal [In Russian]. Moscow: “Fizmatlit” Publisher; 2003.
  2. Zel’dovich BYa, Pilipetskiy NF, Shkunov VV. Wavefront reversal [In Russian]. Moscow: “Nauka” Publisher; 1985.
  3. Ivakhnik VV. Wavefront reversal and four-wave interaction [In Russian]. Samara: Samara State University Publisher; 2010.
  4. Blinov VV, Vorob’eva EV, Ivakhnik VV, Nikonov VI. The influence of the reference (reading) wave spatial structure on the spatial selectivity of the amplitude dynamic hologram in a dye solution [In Russian]. Computer Optics 2003; 25: 74-78.
  5. Ivakhnik VV, Harskaya TG. Use of the method of the point spread function for the analysis of quality of phase conjugation via four-wave radiation converter in thermal nonlinear media (review) [In Russian]. Computer Optics 2009; 33(1): 17-26.
  6. Livashvili AI, Kostina GV, Yakunina MI. Temperature dynamics of a transparent nanoliquid acted on by a periodic light field. J Opt Tech 2013; 80(2): 124-126. DOI: 10.1364/JOT.80.000124.
  7. Rusconi R, Isa L, Piazza R. Thermal-lensing mesuarment of particle thermophoresis in aqueous dispersion. J Opt Soc Am B 2004; 21(3): 605-616. DOI: 10.1364/JOSAB.21.000605.
  8. Mahilny UV, Marmysh DN, Stankevich AI, Tolstik AL, Matusevich V, Kowarschik R. Holographic volume gratings in a glass-like polymer materials. Appl Phys B 2006; 82(2): 299-302. DOI: 10.1007/s00340-005-2006-z.
  9. Afanas’ev AA, Rubinov AN, Mikhnevich SYu, Ermolaev IE. Four-wave mixing in a liquid suspension of transparent dielectric microspheres. JETP 2005; 101(3): 389-400.
  10. Ivanov VI, Okishev KN. Thermodiffusion mechanism of dynamic amplitude hologram recording in a two-component medium. Tech Phys Lett 2006; 32(11): 967-968. DOI: 10.1134/51063785006110186.
  11. Isobe K, Kawasumi T, Tamaki T, Kataoka S, Ozeki Y, Itoh K. Three-dimensional profiling of refractive index distribution inside transparent materials by use of nonresonant four-wave mixing microscopy. Appl Phys Exp 2008; 1(2): 022006. DOI: 10.1143/APEX.1.022006.
  12. Wang Y, Lin CY, Nikolaenko A, Raghunathan V, Potma EO. Four-wave mixing microscopy of nanostructures. Adv Opt Photonics 2011; 3(1): 1-52. DOI: 10.1364/AOP.3.000001.
  13. Lopez-Mariscal C, Gutierrez-Vega JC, McGloin D, Dholakia K. Direct detection of optical phase conjugation in a colloidal medium. Opt Exp 2007; 15(10): 6330-6335. DOI: 10.1364/OE.15.006330.
  14. Li JB, He MD, Chen LQ. Four-wave parametric amplification in semiconductor quantum dot-metallic nanoparticle hybrid molecules. Opt Exp 2014; 22(20): 24734-24741. DOI: 10.1364/OE.22.024734.
  15. Ivakhnik VV, Savelyev MV. The influence of the reflection coefficient on the spatial selectivity of a four-wave radiation converter in a transparent medium based on electrostriction and Dufour effect. Computer Optics 2015; 39(2): 197-203.
  16. Ivakhnik VV, Savelyev MV. Four-wave mixing in a transparent medium based on electrostriction and Dufour effect at large reflectance. Phys Procedia 2015; 73: 26-32. DOI: 10.1016/j.phpro.2015.09.117.
  17. Ivakhnik VV, Savelyev MV. Spatial and temporal characteristics of a nondegenerate four-wave mixing converter in a transparent medium based on electrostriction and Dufour effect. Computer Optics 2015; 39(4): 486-491. DOI: 10.18287/0134-2452-2015-39-4-486-491.

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