István Bányász
István Bányász
Wigner Research Centre for Physics of the Hungarian Academy of Sciences, Budapest, Hungary
Подтвержден адрес электронной почты в домене - Главная страница
Ion beam irradiated channel waveguides in -doped tellurite glass
S Berneschi, G Nunzi Conti, I Bányász, A Watterich, NQ Khanh, M Fried, ...
Applied physics letters 90 (12), 121136, 2007
Leaky mode suppression in planar optical waveguides written in Er: TeO2–WO3 glass and CaF2 crystal via double energy implantation with MeV N+ ions
I Bányász, Z Zolnai, M Fried, S Berneschi, S Pelli, G Nunzi-Conti
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2014
Holographic image of a point source in the presence of misalignment
I Banyasz, G Kiss, P Varga
Applied optics 27 (7), 1293-1297, 1988
Method for the evaluation of the effects of film nonlinearities on the holographic image
I Bányász
Optics letters 18 (8), 658-660, 1993
MeV Energy -Implanted Planar Optical Waveguides in Er-Doped Tungsten-Tellurite Glass Operating at 1.55
I Bányász, S Berneschi, M Bettinelli, M Brenci, M Fried, NQ Khanh, ...
IEEE Photonics Journal 4 (3), 721-727, 2012
Recording of transmission phase gratings in glass by ion implantation
I Bányász, M Fried, C Dücsö, Z Vértesy
Applied Physics Letters 79 (23), 3755-3757, 2001
Direct measurement of the refractive index profile of phase gratings, recorded in silver halide holographic materials by phase-contrast microscopy
I Bányász
Applied physics letters 83 (21), 4282-4284, 2003
Hologram build-up in a near infrared sensitive photopolymer
I Bányász
Optics communications 181 (4-6), 215-221, 2000
Laser irradiation, ion implantation and e-beam writing of integrated optical structures
GC Righini, I Banyasz, S Berneschi, M Brenci, A Chiasera, M Cremona, ...
Photonic Materials, Devices, and Applications 5840, 649-657, 2005
Fabrication of channel waveguides in Er3+-doped tellurite glass via N+ ion implantation
NQ Khánh, S Berneschi, I Bányász, M Brenci, M Fried, GN Conti, F Pászti, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2009
Method for the characterization of hologram processing
I Bányász, A Beléndez, I Pascual, A Fimia
Journal of Modern Optics 45 (5), 881-888, 1998
Optical properties of crystalline and ion-beam amorphized Bi12GeO20: Relevance for waveguide applications
O Peña-Rodríguez, J Olivares, I Bányász
Optical Materials 47, 328-332, 2015
Comparison of nonlinear characteristics of phase holograms processed by various combinations of developers and bleaching agents
I Bányász, A Beléndez, I Pascual, A Fimia
Journal of Modern Optics 46 (4), 591-604, 1999
Nonlinear recording of amplitude holograms in agfa 8E75HD: comparison of two developers
I Bányász, A Beléndez, L Carretero
Optics communications 111 (3-4), 225-232, 1994
Spatial frequency dependence of the nonlinear characteristics of bleached silver-halide holographic materials
I Bányász
Optics communications 225 (4-6), 269-275, 2003
On the semi-physical developing effect of the AAC developer on holograms recorded in Agfa-Gevaert 8E75HD emulsions
I Bányász
Optics communications 192 (1-2), 27-35, 2001
Difference holographic interferometry (DHI): single reference beam technique
Z Füzessy, F Gyimesi, I Bányász
Optics communications 68 (6), 404-407, 1988
High-resolution lensless Fourier-transform digital holography
I Banyasz, J Kornis
Optical Measurement Systems for Industrial Inspection IV 5856, 71-79, 2005
Formation of slab waveguides in eulytine type BGO and CaF2 crystals by implantation of MeV nitrogen ions
I Bányász, S Berneschi, NQ Khánh, T Lohner, K Lengyel, M Fried, Á Péter, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2012
The effects of the finite spatial resolution of thermoplastic recording materials on the holographic image
I Bányász
Journal de Physique III 3 (7), 1435-1444, 1993
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Статьи 1–20