É. B. Kaganovich scite author profile

Nanostructure porous films with arrays of gold nanoparticles (Au NPs) have been produced by pulsed laser deposition. Dispersion properties of surface plasmons have been studied by the modulation-polarization spectroscopy technique. The dispersion relations for radiative modes and two types of non-radiative modes of localized and propagating surface plasmons were obtained. The branches of propagating modes were characterized by negative group velocity caused by spatial dispersion of dielectric function. The propagating modes are caused by dipole-dipole interactions between adjacent Au NPs. The frequencies and relaxation parameters of surface plasmon resonances and the plasma frequencies for Αu NPs were obtained. The relation between the surface plasmon’s properties and formation conditions of films with arrays of Αu NPs is discussed.

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Kinetics of exciton photoluminescence in low-dimensional silicon structures

Sachenko

Kaganovich

Манойлов

et al. 2001

Semiconductors

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CdSxSe1−x photosensitive films: Preparation, properties and use for photodetectors in optoelectronics

Svechnikov

Kaganovich

1980

Thin Solid Films

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Optical Characterization of SERS Substrates Based on Porous Au Films Prepared by Pulsed Laser Deposition

Strelchuk

Kolomys

Kaganovich

et al. 2015

Journal of Nanomaterials

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The SERS (surface enhanced Raman spectroscopy) substrates based on nanocomposite porous films with gold nanoparticles (Au NPs) arrays were formed using the method of the pulsed laser deposition from the back low-energy flux of erosion torch particles on the glass substrate fixed at the target plain. The dependencies of porosity, and morphology of the surface of the film regions located near and far from the torch axis on the laser ablation regime, laser pulses energy density, their number, and argon pressure in the vacuum chamber, were ascertained. The Au NPs arrays with the controllable extinction spectra caused by the local surface plasmon resonance were prepared. The possibility of the formation of SERS substrates for the detection of the Rhodamine 6G molecules with the concentration 10−10 Mol/L with the enhancement factor 4·107was shown.

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É. B. Kaganovich

Spectra of photoluminescence from silicon nanocrystals

Surface Plasmon’s Dispersion Properties of Porous Gold Films

Kinetics of exciton photoluminescence in low-dimensional silicon structures

CdSxSe1−x photosensitive films: Preparation, properties and use for photodetectors in optoelectronics

Optical Characterization of SERS Substrates Based on Porous Au Films Prepared by Pulsed Laser Deposition

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