Перегляд за Автор "Angelsky, O. V."
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Документ Microscopic analysis of the energy, momentum and spin distributions in a surface plasmon-polariton wave: erratum(2021) Bekshaiev, Oleksandr Yа.; Бекшаєв, Олександр Янович; Бекшаев, Александр Янович; Angelsky, O. V.; Zheng, J.; Hanson, S. G.; Zenkova, C. Yu.We correct inessential mistakes in equations of the recently published paper [Opt. Mater. Express 11, 2165 (2021) ]. The mistakes do not affect the numerical results and conclusions of the paper.Документ Microscopic analysis of the energy, momentum, and spin distributions in a surface plasmon-polariton wave(2021) Bekshaiev, Oleksandr Yа.; Бекшаєв, Олександр Янович; Бекшаев, Александр Янович; Angelsky, O. V.; Zheng, J.; Hanson, S. G.; Zenkova, C. Yu.We analyze the electromagnetic field near a plane interface between a conductive and a dielectric media, under conditions supporting surface plasmon-polariton (SPP) propagation. The conductive medium is described by the hydrodynamic electron-gas model that enables a consistent analysis of the field-induced variations of the electron density and velocity at the interface and its nearest vicinity. The distributions of electromagnetic dynamical characteristics: energy, energy flow, spin and momentum are calculated analytically and illustrated numerically, employing silver-vacuum interface as an example. A set of the “field” and material contributions to the energy, spin and momentum are explicitly identified and classified with respect to their physical origins and properties, and the orbital (canonical) and spin (Belinfante) momentum constituents are separately examined. In this context, a procedure for the spin-orbital momentum decomposition in the presence of free charges is proposed and substantiated. The microscopic results agree with the known phenomenological data but additionally show specific nanoscale structures in the near-interface behavior of the SPP energy and momentum, which can be deliberately created, controlled and used in nanotechnology applications.Документ Structured Light Control and Diagnostics Using Optical Crystals(2021) Angelsky, O. V.; Bekshaiev, Oleksandr Yа.; Dragan, G. S.; Maksimyak, P. P.; Zenkova, C. Yu.; Zheng, Jun; Бекшаєв, Олександр Янович; Бекшаев, Александр ЯновичWe describe experimental results exposing the possibilities of optical crystals, especially anisotropic and birefringent, for creation, control, and diagnostics of structured light fields with singular and extraordinary properties. The efficiency of birefringent media is demonstrated for purposeful generation of optical beams with phase singularities (optical vortices) and desirable patterns of internal energy flows, in both the mono- and polychromatic light. On the other hand, anisotropic micro-objects can be used as probing bodies for investigation of the peculiar features of internal energy flows and corresponding momentum and angular momentum distributions in structured light fields. In particular, the specific mechanical action of light fields, formed under the total-reflection conditions, has been detected that confirms the existence of “extraordinary” dynamical characteristics of evanescent light waves predicted theoretically: the “transverse” momentum and “vertical” spin and their dependence on the incident beam polarization. The results can be useful for the optical trapping and micromanipulation techniques, including the biomedical and pharmaceutical applications.