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Personal information
Name: Khomenko ,  Anatoly
Departament: Optics
Division: Applied Physics
Email: akhom@cicese.mx
Phone extension: 25040
Research areas

  • Castro Chac√≥n, J. H., Torres Torres, C., Khomenko, A., Garc√≠a Zarate, M. A., Trejo Valdez, M., Mart√≠nez Guti√©rrez, H., & Torres Mart√≠nez, R. (2017). Encryption of nonlinear optical signals in ZnO:Al thin films by ultrashort laser pulses. Journal of Modern Optics, 64(6), 601-608. doi: 10.1080/09500340.2016.1253880. (ID: 21538)
  • Carrillo Delgado, C., Garc√≠a Gil, C. I., Trejo Valdez, M., Torres Torres, C., Garcia Merino, J., Mart√≠nez Guti√©rrez, H., Khomenko, A., & Torres Mart√≠nez, R. (2016). Mechano-optic logic gate controlled by third order nonlinear optical properties in a rotating ZnO:Au thin film. Materials Research Express, 3(1), 1-12. doi: 10.1088/2053-1591/3/1/016402. (ID: 20275)
  • Torres Torres, C., Torres Torres, D., Garc√≠a Zarate, M. A., Garc√≠a Gil, C. I., Leyva Porras, C. C., Sol√≠s Canto, O. O., Trejo Valdez, M., Khomenko, A., & Romero Paredes, G. (2014). Optoelectronic switching in a microstructure containing Au nanoparticles. Journal of Modern Optics, 61(18), 1500-1508. doi: 10.1080/09500340.2014.943313. (ID: 17813)
  • Petrov, V., Khomenko, A., Krinitsky , Y. A., & Garc√≠a Zarate, M. A. (2014). Light pressure detection by two-wave mixing in the photorefractive BaTiO3:Co crystal. St. Petersburg Polytechnic University Journal: Physics and Mathematics, 189(1), 61-64. (ID: 22687)
  • Torres Torres, C., Can Uc, B. A., Rangel Rojo, R., Casta√Īeda, L., Torres Mart√≠nez, R., Garc√≠a Gil, C. I., & Khomenko, A. (2013). Optical Kerr phase shift in a nanostructured nickel-doped zinc oxide thin solid film. Optics Express, 21(18), 21357-21364. doi: 10.1364/OE.21.021357. (ID: 14970)
  • Petrov, V., Khomenko, A., Krinitsky , Y. A., & Garc√≠a Zarate, M. A. (2013). Sensitivity analysis of an optical holographic interferometer based on reflective dynamic gratings. St. Petersburg Polytechnic University Journal: Physics and Mathematics, 170(2), 115-121. (ID: 22686)
  • Casta√Īeda, L., Torres Torres, C., Trejo Valdez, M., Castro Chac√≥n, J. H., Graciano Armenta, G. A., & Khomenko, A. (2013). Optical and photoconductive properties exhibited by silver doped zinc oxide thin films. Journal of Nanoelectronics and Optoelectronics, 8(3), 267-272. doi: 10.1166/jno.2013.1465. (ID: 14227)
  • Trejo Valdez, M., Torres Torres, C., Castro Chac√≥n, J. H., Graciano Armenta, G. A., Garc√≠a Gil, C. I., & Khomenko, A. (2013). Modification of the picosecond optical absorptive nonlinearity by a nanosecond irradiation in a nanostructured Zn0 thin film. Optics and Laser Technology, 49, 75-80. doi: 10.1016/j.optlastec.2012.12.026. (ID: 15614)
  • Torres Torres, C., Castro Chac√≥n, J. H., Casta√Īeda Avila, L. E., Rangel Rojo, R., Torres Mart√≠nez, R., Tamayo Rivera, L., & Khomenko, A. (2011). Ultrafast nonlinear optical response of photoconductive ZnO films with fluorine nanoparticles. Optics Express, 19(17), 16346-16355. (ID: 16198)
  • Khomenko, A., Tapia Mercado, J. C., & Garc√≠a Zarate, M. A. (2010). Fiber optic sensing of relative humidity using a twin low coherence interferometer. Revista Mexicana de F√≠sica, 56(3), 208-210. (ID: 13474)
  • Khomenko, A., & Petrov, V. (2009). Highly sensitive adaptive interferometer based on reflection photorefractive grating in BaTiO3:Co*. Journal of Holography and Speckle, 5(3), 238-242. doi: 10.1166/jhs.2009.1022. (ID: 14029)
  • Castro Chac√≥n, J. H., Khomenko, A., & Rangel Rojo, R. (2009). Phase matched vectorial three-wave mixing in isotropic Kerr media. Optics Communications, 282(7), 1422-1426. (ID: 10285)
  • Torres Torres, C., Khomenko, A., Tamayo Rivera, L., Rangel Rojo, R., Mao, Y., & Watson, W. H. (2008). Measurements of nonlinear optical refraction and absorption in an amino-triazole push-pull derivative by a vectorial self-diffraction method. Optics Communications, 281(12), 3369-3374. (ID: 11152)
  • Khomenko, A., L√≥pez Navarro, A., Garc√≠a Zarate, M. A., & Shcherbin, K. (2007). Optically stimulated electron-hole resonance in photorefractive CdTe with a low frequency ac field. Journal of the Optical Society of America B, 24(9), 2172-2177. (ID: 4256)
  • Torres Torres, C., Khomenko, A., Cheang Wong, J. C., Rodr√≠guez Fern√°ndez, L., Crespo Sosa, A., & Oliver, A. (2007). Absorptive and refractive nonlinearities by four-wave mixing for Au nanoparticles in ion-implanted silica. Optics Express, 15(15), 9248-9253. (ID: 3351)
  • Shcherbin, K., Danylyuk, V., & Khomenko, A. (2006). Visualization of space-charge waves in photorefractive semiconductor using polarimetric technique. Ukrainian Journal of Physical Optics, 7(4), 164-170. (ID: 9195)
  • Torres Torres, C., & Khomenko, A. (2005). Autodifracci√≥n vectorial de dos ondas degeneradas en medios con efecto Kerr √≥ptico. Revista Mexicana de F√≠sica, 51(2), 162-167. (ID: 7082)
  • Rocha Mendoza, I., & Khomenko, A. (2004). Polarization orthogonalization of interacting beams in cubic photorefractive crystals. Journal of the Optical Society of America B, 21(4), 770-776. (ID: 5668)
  • Khomenko, A., & Rocha Mendoza, I. (2004). Vectorial two-beam coupling with arbitrary shifted photorefractive gratings: an analytical approach. Physical Review E, 70, doi 1-7. (ID: 7151)
  • Khomenko, A., & Torres Torres, C. (2004). Optical Kerr effect in photorefractive Bi12SiO20 crystal. Ukrainian Journal of Physics, 49(4), 377-371. (ID: 5720)
  • Fuentes Hernandez, C. A., Khomenko, A., & Rocha Mendoza, I. (2002). Beam propagation method in photorefractive crystals. Journal of Optical Technology, 69(8), 565-569. (ID: 4898)
  • Rocha Mendoza, I., & Khomenko, A. (2002). Bidirectional vectorial light amplification in cubic crystals with unshifted photorefractive gratings. Optics Letters, 27(16), 1448-1450. (ID: 3908)
  • Tapia Mercado, J. C., Khomenko, A., & Garc√≠a Weidner, A. (2001). Precision and sensitivity optimization for white-light interferometric fiber-optic sensonrs. Journal of Lightwave Technology, 19(1), 70-74. (ID: 8743)
  • Fuentes Hernandez, C. A., & Khomenko, A. (1999). Beam collapse and polarization self-modulation in optically active photorefractive crystal in an alternating electric field. Physical Review Letters, 83(6), 1143-1146. (ID: 2516)
  • Kamshilin, A. A., Paivasaari, K., Khomenko, A., & Fuentes Hernandez, C. A. (1999). Polarization self-modulation of the nonstationary speckly field in a photorefractive crystal. Optics Letters, 24(12), 832-834. (ID: 1554)
  • Cort√©s Mart√≠nez, R., Khomenko, A., Starodumov, A. N., Arzate, N., & Zenteno, L. A. (1998). Interferometric fiber-optic temperature sensor with spiral polarization couplers. Optics Communications, 154(4/6), 268-272. (ID: 1221)
  • Khomenko, A., Z√ļ√Īiga Segundo, A., Jaaskelainen, T., Nippolainen, E., & Kamshilin, A. A. (1998). Leaky photorefractive surface waves in Bi12TiO20 and Bi12 SiO20 crystals. Optics Communications, 150, 175-179. (ID: 2022)
  • Kamshilin, A. A., Raita, E., & Khomenko, A. (1996). Intensity redistribution in a thin photorefractive crystal caused by strong fanning effect and internal reflections. Journal of the Optical Society of America B, 13(11), 2536-2543. (ID: 1127)
  • Khomenko, A., Garc√≠a Weidner, A., & Kamshilin, A. A. (1996). Amplification of optical signals in Bi12TiO20 crystal by the photorefractive surface waves. Optics Letters, 21(14), 1014-1016. (ID: 1655)
  • Kamshilin, A. A., Jaaskelainen, T., Khomenko, A., & Garc√≠a Weidner, A. (1995). Multimode fiber-optic sensor using photorefractive double phase conjugator. Applied Physics Letters, 67(18), 2585-2587. (ID: 777)

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