Your search keyword '"Andrejczuk A"' showing total 9 results

1. Isotope quantum effects in the electron momentum density of water.

Author

Nygård, K., Hakala, M., Pylkkänen, T., Manninen, S., Buslaps, T., Itou, M., Andrejczuk, A., Sakurai, Y., Odelius, M., and Hämäläinen, K.

Subjects

SYNCHROTRON radiation, DENSITY functionals, COMPTON electrons, MOMENTUM transfer, THERMODYNAMICS, X-ray diffraction

Abstract

The isotope quantum effects in the ground-state electron momentum density of water are studied at temperatures ranging from 5 to 90 °C by combining Compton scattering experiments utilizing synchrotron radiation and computational analysis within density functional theory. We observe clear differences in the momentum density between normal and heavy water at room temperature, which are interpreted as predominantly reflecting intramolecular structural differences. The changes in the momentum density upon increasing the temperature are found to be larger for heavy than for normal water, which is attributed primarily to temperature-induced intramolecular structural effects. Both model computations and an ab initio approach qualitatively reproduce the changes in the momentum density as a function of temperature. [ABSTRACT FROM AUTHOR]

Published

2007

2. Conductors, semiconductors, and insulators irradiated with short-wavelength free-electron laser.

Author

Krzywinski, J., Sobierajski, R, Jurek, M., Nietubyc, R., Pelka, J. B., Juha, L., Bittner, M., Létal, V., Vorlícˇek, V., Andrejczuk, A., Feldhaus, J., Keitel, B., Saldin, E. L., Schneidmiller, E. A., Treusch, R., and Yurkov, M. V.

Subjects

GEOMETRIC surfaces, METALS, SEMICONDUCTORS, TESTING laboratories, ELECTRIC conductivity, LASERS

Abstract

The results of a study of irreversible changes induced at surfaces of metals, semiconductors, and insulators by extreme ultraviolet (λ<100 nm) ultrashort pulses provided by TESLA Test Facility Free-Electron Laser, Phase 1 (TTF1 FEL) are reported and discussed. The laser was tuned at 86, 89, and 98 nm during the experiments reported here. Energy spectra of ions ejected from the irradiated surfaces are also reported. Special attention is paid to the difference in the ablation behavior of (semi)conductors and insulators that we have observed. The difference is dramatic, while the absorption coefficients are similar for all materials at the TTF1 FEL wavelength. [ABSTRACT FROM AUTHOR]

Published

2007

3. One Dimensional Focusing with High Numerical Aperture Multilayer Laue Lens.

Author

Bajt, Saša, Prasciolu, Mauro, Morgan, Andrew J., Chapman, Henry N., Krzywinski, Jacek, and Andrejczuk, Andrzej

Subjects

SURFACE coatings, NUMERICAL apertures, LENSES, EXTREME ultraviolet lithography, ZONE plates

Abstract

Multilayer Laue lenses (MLLs) capitalize on the developments in multilayer deposition technologies for fabricating reflective coatings, specifically undertaken for EUV lithography, where layer thicknesses of several nanometers can be achieved. MLLs are deposited layer by layer, with their thicknesses following the zone plate law, and then pieces are sliced and extracted for use in focusing. Rays are reflected in the Laue geometry. The efficiency of a MLL can be very high, and is maximized by making the slice equal to about a half Pendellosung period so that most energy is transferred from the undiffracted to the diffracted beam, and by ensuring that the Bragg condition is met at each point in the zone plate. This latter condition requires that the layers are tilted to the beam by an amount that varies with layer position; e.g. for focusing a collimated beam, the layers should be normal to a cylinder of radius of twice the focal length. We have fabricated such tilted-zone MLLs and find that they exhibit improved efficiency across their entire pupil as compared with parallel-zone MLLs. This leads to a higher effective NA of the optic and hence higher resolution. [ABSTRACT FROM AUTHOR]

Published

2015

4. Conductors, Semiconductors, and Insulators Irradiated with Short-wavelength Free-electron Laser

Author

Rolf Treusch, E. A. Schneidmiller, M. V. Yurkov, R. Nietubyc, Vladimír Vorlíček, Josef Feldhaus, Jerzy B. Pelka, Jacek Krzywinski, Vit Letal, R. Sobierajski, A. Andrejczuk, Michal Bittner, E. Saldin, Barbara Keitel, Marek Jurek, and Libor Juha

Subjects

Materials science, business.industry, Free-electron laser, General Physics and Astronomy, Laser, Electromagnetic radiation, law.invention, Wavelength, Semiconductor, law, Extreme ultraviolet, Optoelectronics, ddc:530, Irradiation, business, Absorption (electromagnetic radiation)

Abstract

The results of a study of irreversible changes induced at surfaces of metals, semiconductors, and insulators by extreme ultraviolet (λ

Published

2007

5. High transmission Ni compound refractive lens for high energy X-rays.

Author

Brancewicz, M., Itou, M., Sakurai, Y., Andrejczuk, A., Chiba, S., Kayahara, Y., Inoue, T., and Nagamine, M.

Subjects

X-rays, REFRACTION (Optics), LENSECTOMY, CURVATURE, ELECTROMAGNETIC waves

Abstract

We present a new planar Ni compound refractive lens for high energy X-rays (116 keV). The lens is composed of identical plano-concave elements with longitudinal parabolic grooves manufactured by a punch technique. In order to increase the lens transmission, the thickness of the single lens at the parabolic groove vertex was reduced to less than 5 μm and the radius of curvature was reduced to about 20 μm. The small radius of curvature allowed us to reduce the number of single elements needed to get the focal length of 3 m to 54 single lenses. The gain parameter has been significantly improved compared to the previous lenses due to higher transmission, but the focused beam size and its gain are not as good as expected, mostly due to the aberrations caused by the lens shape imperfections. [ABSTRACT FROM AUTHOR]

Published

2016

6. A Compound Refractive Lens for 175 keV X-rays.

Author

Andrejczuk, Andrzej, Sakurai, Yoshiharu, and Itou, Masayoshi

Subjects

*X-rays, *SCATTERING (Physics), *COLLISIONS (Nuclear physics), *PARTICLES, *MAGNETICS, *ELECTRICAL engineering

Abstract

This is to report on the second step in constructing Compound Refractive Lens for focusing 175 keV X-rays for Magnetic Compton Scattering experiment at the BL08W beamline in SPring-8. The lens consists of the metallic plates with small parabolic grooves pressed into it. The first lens for this high energy was made of Fe. Recently we have performed a test on the lens made of Ni and found that it has a focal length of 2.6 m with a size of 9 microns in FWHM. The focused beam is still weaker than the designed value, but it has already achieved two times higher density than unfocused beam. © 2007 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2007

7. Ablation of Organic Polymers and Elemental Solids Induced by Intense XUV Radiation.

Author

Juha, Libor, Präg, Ansgar R., Krása, Josef, Cejnarová, Andrea, Králiková, Bozˇena, Skála, Jirˇí, Chvostová, Dagmar, Vorlícˇek, Vladimír, Krzywinski, Jacek, Andrejczuk, Andrzej, Jurek, Marek, Klinger, Dorota, Sobierajski, Ryszard, Fiedorowicz, Henryk, Bartnik, Andrzej, Pína, Ladislav, Kravárik, Jozef, Kubesˇ, Pavel, Bakshaev, Yuri L., and Chernenko, Andrei S.

Subjects

POLYMERS, LASER ablation, ULTRAVIOLET radiation

Abstract

The ablation efficiency of organic polymers (polymethylmethacrylate - PMMA, polytetrafluoroethylene PTFE, polyethyleneterephtalate - PET, and polyimide - PI) and elemental solids (aluminum and silicon) by single pulses of extreme ultraviolet (XUV) radiation emitted from Z-pinch, plasma-focus, and laser-produced plasmas was investigated. The ablation characteristics measured for these plasma-based sources will be compared with those obtained for irradiation of samples with XUV radiation generated by a free-electron laser (FEL). The Z-pinch was driven by the S-300 pulsed-power machine (Kurchatov lnstitute, Moscow) and the plasma focus was realized in the PF-1000 machine (Institute of Plasma Physics and Laser Microfusion, Warsaw). Higher temperature plasma than with the discharge plasmas was obtained by focusing the near-infrared (fundamental frequency) beam from the PALS high-power iodine laser system (Czech Academy of Sciences, Prague) on the surface of a metallic slab target or into single- and double-gas-puff target placed in a vacuum interaction chamber. Much softer (λ = 86 nm), but monochromatic and more intense, radiation is provided in many (repetition rate= 1 Hz) short pulses by the SASE-FEL at the Tesla Test Facility (DESY-HASYLAB, Hamburg). The role of nonthermal processes in XUV ablation will be evaluated. Mechanisms based on the nonthermal processes will be proposed. [ABSTRACT FROM AUTHOR]

Published

2002

8. Experimental station to study the interaction of intense femtosecond vacuum ultraviolet pulses with matter at TTF1 free electron laser.

Author

Sobierajski, R., Krzywinski, J., Andrejczuk, A., Hahn, U., Treusch, R., Jurek, M., Klinger, D., Nietubyć, R., Pe&lslash;ka, J. B., Reniewicz, H., Sikora, M., and Sobala, W.

Subjects

ULTRAVIOLET radiation, RADIATION, LASERS, PARTICLES (Nuclear physics), VACUUM, ELECTRONS, DETECTORS

Abstract

An experimental station to study the interaction of intense femtosecond vacuum ultraviolet pulses generated by the TTF1 free electron laser (FEL) (DESY, Germany) with solids was developed. The vacuum chamber, the sample holder and the detectors had been designed to fulfill strong constraints caused both by the unique properties of the interacting radiation and by TTF1 FEL innovative design. The applied mounting system allowed one to move and rotate the samples precisely with 4 degrees of freedom and to heat them up to the maximal temperature of 1000 K. In order to accomplish the in situ growth of thin metallic layers on the sample surfaces, evaporation cells had been installed in the vacuum chamber. A time-of-flight apparatus capable of recording both electrons and ions excited on the solid surfaces by the laser pulses had been included in the chamber design. A pulse energy monitor had been placed in the laser beam outside the experimental chamber. A second energy detector had been mounted inside the chamber on a rotational arm, permitting the angular resolved reflectivity measurements. The detectors placed in the chamber enabled a real-time study both of the ionized damage products and the reflected light from the interaction place on the sample surfaces. The measurements were made with respect to the primary beam incident angle and energy. Examples of the experimental results as well as an off-line analysis are presented. The usability of constructed experimental system to study of the interaction of intense, femtosecond pulses with solid matter is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2005

9. Total reflection amorphous carbon mirrors for vacuum ultraviolet free electron lasers.

Author

Steeg, B., Juha, L., Feldhaus, J., Jacobi, S., Sobierajski, R., Michaelsen, C., Andrejczuk, A., and Krzywinski, J.

Subjects

AMORPHOUS semiconductors, FREE electron lasers, FAR ultraviolet radiation, CARBON, LASERS, RADIATION

Abstract

Sputter-deposited amorphous carbon coatings of high optical quality and very high radiation stability will be used as reflecting optical elements for free electron laser (FEL) applications in the vacuum ultraviolet (VUV) and soft x-ray spectral regions. Their reflectivity at grazing angles of 2° is typically 94–96% for photon energies between 50 and 250 eV. Using the focused radiation (λ=98 nm) of the VUV FEL at Deutsches Elektronen-Synchrotron DESY the damage threshold of such coatings was determined to 0.07 J/cm2. Ripples with a spatial period of 76 nm were found on the surfaces damaged by the FEL radiation. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004