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Elementy optyczne pracujące w widmowym zakresie obejmującym ultrafiolet próżniowy i miękkie promieniowanie rentgenowskie

Wardzińska Martyna, Wachulak Przemysław

Biuletyn Wojskowej Akademii Technicznej

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2022

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Vol. 71, nr 2

49--83

PL

W artykule zawarto podstawy fizyczne i przegląd elementów optycznych do pracy w zakresie obejmującym ultrafiolet próżniowy (eUV) oraz miękkie promieniowanie rentgenowskie (SXr). Pierwszy rozdział obejmuje wprowadzenie do analizowanej tematyki i podstawy fizyczne. W drugim rozdziale przedstawione zostały podstawy działania optyki związanej z zakresem eUV/SXr wraz z wyróżnieniem jej wad oraz zalet. W trzecim rozdziale szczegółowo omówiono elementy optyczne, takie jak: filtry optyczne, zwierciadła (m.in. wielowarstwowe), siatki dyfrakcyjne, płytki strefowe Fresnela oraz rozwiązania hybrydowe. rozdział czwarty przedstawia szeroki obszar zastosowań optyki eUV/SXr. W ostatnim rozdziale znajduje się podsumowanie przedstawionych wcześniej informacji.

EN

The article presents the physical basis and overview of optical elements for the range including extreme ultraviolet (eUV) and soft X-ray (SXr). The first chapter contains an introduction to the subject under review and physical fundamentals. The second chapter presents the basics of optics for the eUV/SXr range, along with highlighting its advantages and disadvantages. The third chapter discusses in detail optical components such as optical filters, mirrors (including multilayers), diffraction gratings, Fresnel zone plates, and hybrid solutions. The fourth chapter presents a wide range of applications of eUV/SXr optics. The final chapter summarises the information presented earlier.

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Recent advancements in the “water-window” microscopy with laser-plasma SXR source based on a double stream gas-puff target

Wachulak P. W.

Opto-Electronics Review

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2016

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Vol. 24, No. 3

144--154

EN

An overview of our recent developments, regarding “water−window” soft X−ray (SXR) microscopy based on a laser−plasma double stream gas puff target sources is presented. The work, presented herein, describes two approaches to SXR microscopy. The first one is a low spatial resolution, achromatic SXR microscopy, employing Wolter type−I objective. The second one is a nanometer spatial resolution SXR microscopy, with the use of a Fresnel zone plate objective, for imaging various objects with quasimonochromatic light, emitted from a double stream gas puff target based short wavelength source. The developments regarding both systems are presented, as well as the possible applications, for which the SXR microscope was already employed. Such compact, table−top size, laboratory type microscopy setups may be employed in the near future for complementary−like studies to other, often used, microscopy techniques.

3

Extraordinary optical transmission and vortex excitation by periodic arrays of Fresnel zone plates

Roszkiewicz A., Nasalski W.

Bulletin of the Polish Academy of Sciences. Technical Sciences

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2013

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Vol. 61, nr 4

855--861

EN

Extraordinary optical transmission and good focusing properties of a two-dimensional scattering structure is presented. The structure is made of Fresnel zone plates periodically arranged along two orthogonal directions. Each plate consists of two ring-shaped waveguides supporting modes that match the symmetry of a circularly polarized incident plane wave. High field concentration at the focal plane is obtained with the short transverse and long longitudinal foci diameters. Optical vortex excitation in a paraxial region of the transmitted field is also observed and analysed in terms of cross-polarisation coupling. The structure presented may appear useful in visualization, trapping and precise manipulations of nanoparticles.

4

Fractal-like diffractive arrangement with multiple focal points

Mihailescu M., Preda A. M., Sobetkii A., Petcu A. C.

Opto-Electronics Review

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2009

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Vol. 17, No. 4

330-337

EN

In this paper we introduce a diffractive structure with a geometry which contains multiple Fresnel zone plates (MFZP) disposed in an arrangement based on a fractal-like rule. The corresponding diffracted intensity in planes perpendicular to the propagation axe presents two or more focal points. Their position and magnitude depend on geometrical parameters of the MFZP and on dimensions in the fractal-like arrangement. In our simulations we also analyze the influence in diffraction pattern of different non-binary phase levels in the MFZP plane. The MFZP structures with different values of geometrical and phase parameters are addressed to an optoelectronic device liquid crystal spatial light modulator (LCSLM), the experimental and simulation results are in a good agreement. The MFZP geometry with better optical parameters in diffraction pattern is then made on glass using electron beam lithography technique.