| Bienvenido a CICESE
Centro de Investigación Científica y de Educación Superior de Ensenada, Baja California
  1. Investigación
  3. Personal Académico
Datos Personales
Nombre:
Khomenko Anatoly
Categoría:
INVESTIGADOR TITULAR
SNI:
INVESTIGADOR III
Departamento:
DEPARTAMENTO DE ÓPTICA
División:
DIVISIÓN DE FÍSICA APLICADA
Correo:
akhom@cicese.mx
Extensión:
25040
Proyectos
Generación de luz con frente de onda controlado por nanoestructuras plasmónicas metal-semiconductor
Óptica no lineal de nanoestructuras cristalinas
Laboratorios
Dispositivos no lineales
Hay 46 publicaciones.

Año

Autores / Publicación

2001

Tapia Mercado, J. C., Khomenko, A., & García Weidner, A. (2001). Precision and sensitivity optimization for white-light interferometric fiber-optic sensonrs. Journal of Lightwave Technology, 19(1), 70-74. (ID: 8743)

2000

Tapia Mercado, J. C., Khomenko, A., García Weidner, A., & García Zarate, M. A. (2000). Calorímetro dual de fibra óptica. Revista Mexicana de Física, 46(6), 598-601. (ID: 3660)

2000

Tapia Mercado, J. C., Khomenko, A., Cortés Martínez, R., & García Zarate, M. A. (2000). High accurate fiber sensor with two-LED light source. Optics Communications, 177, 219-223. (ID: 3941)

1999

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)

1999

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)

1998

Cortés Martínez, 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)

1998

Khomenko, A., Zúñiga 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)

1997

Rodriguez Cobos, A., Khomenko, A., Cortés Martínez, R., & García Weidner, A. (1997). Ultralow-birefringence measurement in optical fibers by the twist method. Optics Letters, 22(12), 877-879. (ID: 7160)

1996

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)

1996

Khomenko, A., García Weidner, A., & Tentori Santa Cruz, D. (1996). Enhanced beam amplification in a photorefractive Bi12TiO20 crystal by internal reflections. Optics Letters, 21(11), 776-778. (ID: 1434)

1996

Khomenko, A., García 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)

1995

Shlyagin, M., Khomenko, A., & Tentori Santa Cruz, D. (1995). Birefringence dispersion measurement in optical fibers by wavelength scanning. Optics Letters, 20(8), 869-871. (ID: 2268)

1995

Kamshilin, A. A., Jaaskelainen, T., Khomenko, A., & García Weidner, A. (1995). Multimode fiber-optic sensor using photorefractive double phase conjugator. Applied Physics Letters, 67(18), 2585-2587. (ID: 777)

1994

Shlyagin, M., Khomenko, A., & Tentori Santa Cruz, D. (1994). Remote measurement of mode-coupling coefficients in birefringent fiber. Optics Letters, 19(12), 913-915. (ID: 1026)

1994

Miridonov Elakov, S., Kamshilin, A. A., Khomenko, A., & Tentori Santa Cruz, D. (1994). Information capacity of holograms in photorefractive crystals. Optics Letters, 19(7), 502-504. (ID: 1588)