Synchrotron radiation

About: Synchrotron radiation is a research topic. Over the lifetime, 14639 publications have been published within this topic receiving 244775 citations. The topic is also known as: magnetobremsstrahlung radiation & Synchrotron Radiation.

High‐pressure generation by a multiple anvil system with sintered diamond anvils

Abstract: High‐pressure experiments using a multiple anvil high‐pressure system with sintered diamond anvils are presented and discussed. Pressures in excess of 41 GPa were obtained, on the basis of the lattice constants of gold determined by the in situ x‐ray diffraction technique using synchrotron radiation.

Properties of Synchrotron Radiation

Abstract: Synchrotron radiation has several important properties including: 1 High intensity 2 Broad spectral range 3 High polarization 4 Pulsed time structure 5 Natural collimation In addition, synchrotron radiation produced by storage rings (rather than synchrotrons) offers: 6 High-vacuum environment 7 Small-source-spot size 8 Stability

Application of synchrotron radiation to x‐ray lithography

Abstract: Synchrotron radiation from the German electron synchrotron DESY in Hamburg has been used for x‐ray lithography. Replications of different master patterns (for magnetic bubble devices, Fresnel zone plates, etc.) were made using various wavelengths and exposures. High‐quality lines down to 500 A wide have been reproduced using very soft x rays. The sensitivities of x‐ray resists have been evaluated over a wide range of exposures. Various critical factors (heating, radiation damage, etc.) involved with x‐ray lithography using synchrotron radiation have been studied. General considerations of storage ring sources designed as radiation sources for x‐ray lithography are discussed, together with a comparison with x‐ray tube sources. The general conclusion is that x‐ray lithography using synchrotron radiation offers considerable promise as a process for forming high‐quality‐submicron images with exposure times as short as a few seconds.

High resolution monochromator for the VUV radiation from the DORIS storage ring.

Abstract: The unique properties of the DORIS storage ring at DESY as a synchrotron radiation source are exploited for high resolution spectroscopy in the vacuum ultraviolet. We describe a new experimental set up with a 3-m normal incidence monochromator for wavelengths between 3000 A and 300 A (4 ≤ ħω ≤ 40 eV) using a vertical dispersion plane. The storage ring provides a light flux intense and stable enough for rapid photoelectrical scanning of the spectra with a resolution of 0.03 A in first order.