Paweł Syty scite author profile

Plasmonic platforms based on Au nanostructures have been successfully synthesized by directional solidification of a eutectic from Au and the substrate. In order to determine homogeneous shape and space distribution, the influence of annealing conditions and the initial thickness of the Au film on the nanostructures was analyzed. For the surface morphology studies, SEM and AFM measurements were performed. The structure of platforms was investigated using XRD and XPS methods. Structural investigations confirmed, that nanostructures consist of metallic Au, growing along the [111] direction. The most homogeneous seems to be the platform obtained by solidification of a 2.8 nm Au film, annealed at 550 °C for 15 min. This sample was subsequently chosen for theoretical calculations. Simulations of electromagnetic field propagation through the produced samples were performed using the finite-difference time domain (FDTD) method. The calculated absorbance, as a result of the FDTD simulation shows a quite good agreement with experimental data obtained in the UV–vis range.

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Critical minima in elastic electron scattering from argon

Sienkiewicz¹,

Konopińska²,

Telega³

et al. 2001

J. Phys. B: At. Mol. Opt. Phys.

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Relativistic ab initio calculations of both low-and high-angle critical minima in the differential cross sections are presented. The theoretical approach is based on the Dirac-Hartree-Fock method. Exchange between incident and target electrons is calculated exactly. Target polarization is described by ab initio potential taken from relativistic polarized orbital calculations. The position of our critical minima (39.3 eV, 68 •) and (39.5 eV, 141 •) agree well with recent measurements performed by Panajatović et al.

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Relativistic multiconfiguration method in low-energy scattering of electrons from xenon atoms

Syty¹,

Sienkiewicz²,

Fritzsche³

2003

Radiation Physics and Chemistry

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Critical minima in elastic scattering of electrons from Ar and Zn

Sienkiewicz

Telega

Syty

et al. 2003

Radiation Physics and Chemistry

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Evolution of Ag nanostructures created from thin films: UV–vis absorption and its theoretical predictions

Kozioł¹,

Łapiński²,

Syty³

et al. 2020

Beilstein J. Nanotechnol.

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Ag-based plasmonic nanostructures were manufactured by thermal annealing of thin metallic films. Structure and morphology were studied using scanning electron microscopy (SEM), transmission electron microscopy (TEM), high-resolution transmission electron microscopy (HR-TEM) and X-ray photoelectron spectroscopy (XPS). SEM images show that the formation of nanostructures is influenced by the initial layer thickness as well as the temperature and the time of annealing. The Ag 3d and Ag 4d XPS spectra are characteristic of nanostructures. The quality of the nanostructures, in terms of their use as plasmonic platforms, is reflected in the UV–vis absorption spectra. The absorption spectrum is dominated by a maximum in the range of 450–500 nm associated with the plasmon resonance. As the initial layer thickness increases, an additional peak appears around 350 nm, which probably corresponds to the quadrupole resonance. For calculations leading to a better illustration of absorption, scattering and overall absorption of light in Ag nanoparticles, the Mie theory is employed. Absorbance and the distribution of the electromagnetic field around the nanostructures are calculated by finite-difference time-domain (FDTD) simulations. For calculations a novel approach based on modelling the whole sample with a realistic shape of the nanoparticles, instead of full spheres, was used. This led to a very good agreement with the experiment.

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Neural Oscillation During Mental Imagery in Sport: An Olympic Sailor Case Study

Budnik-Przybylska

Kastrau

Jasik

et al. 2021

Front. Hum. Neurosci.

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The purpose of the current study was to examine the cortical correlates of imagery depending on instructional modality (guided vs. self-produced) using various sports-related scripts. According to the expert-performance approach, we took an idiosyncratic perspective analyzing the mental imagery of an experienced two-time Olympic athlete to verify whether different instructional modalities of imagery (i.e., guided vs. self-produced) and different scripts (e.g., training or competition environment) could differently involve brain activity. The subject listened to each previously recorded script taken from two existing questionnaires concerning imagery ability in sport and then was asked to imagine the scene for a minute. During the task, brain waves were monitored using EEG (32-channel g. Nautilus). Our findings indicate that guided imagery might induce higher high alpha and SMR (usually associated with selective attention), whereas self-produced imagery might facilitate higher low alpha (associated with global resting state and relaxation). Results are discussed in light of the neural efficiency hypothesis as a marker of optimal performance and transient hypofrontality as a marker of flow state. Practical mental training recommendations are presented.

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Differential cross section minima in elastic scattering of electrons from zinc

et al. 2002

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Paweł Syty

Experimental tuning of AuAg nanoalloy plasmon resonances assisted by machine learning method

Au–Si plasmonic platforms: synthesis, structure and FDTD simulations

Critical minima in elastic electron scattering from argon

Relativistic multiconfiguration method in low-energy scattering of electrons from xenon atoms

Critical minima in elastic scattering of electrons from Ar and Zn

Evolution of Ag nanostructures created from thin films: UV–vis absorption and its theoretical predictions

Neural Oscillation During Mental Imagery in Sport: An Olympic Sailor Case Study

Differential cross section minima in elastic scattering of electrons from zinc

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