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COMPUTER-AIDED LASER INTERFEROMETER FOR TESTING THE FLATNESS OF SILICON WAFERS
Kotlyar, V. V.,Seraphimovich, P. G.,Soifer, V. A. 대한전자공학회 1992 HICEC:Harbin International Conference on Electroni Vol.1 No.1
An optical-electronic set-up of computer-aided shift interferometer for non-contact routine testing of flatness of polished silicon wafers with diameter 200㎜ has been described. The gas He-Ne laser with the wavelenght λ=0.631㎛ and power of 15mW and collimating lens with the diameter of 250㎜ and focal lenght of 1250㎜ was used. The phase binary diffraction grating is used as a splitter of a beam. The interferogram was registered as a array of 256×256×8 bits by TV-camera. The measurements of the deviation of a wafer flatness were performed in the 1-to 100㎛ band providing the accuracy up to 0.3㎛. Time of the frame processing was 1 minute when using IBM PC/AT-286 computer.
Femtosecond electron-phonon lock-in by photoemission and x-ray free-electron laser
Gerber, S.,Yang, S.-L.,Zhu, D.,Soifer, H.,Sobota, J. A.,Rebec, S.,Lee, J. J.,Jia, T.,Moritz, B.,Jia, C.,Gauthier, A.,Li, Y.,Leuenberger, D.,Zhang, Y.,Chaix, L.,Li, W.,Jang, H.,Lee, J.-S.,Yi, M.,Dakovs American Association for the Advancement of Scienc 2017 Science Vol.357 No.6346
<P><B>A deeper look into iron selenide</B></P><P>In the past 10 years, iron-based superconductors have created more puzzles than they have helped resolve. Some of the most fundamental outstanding questions are how strong the interactions are and what the electron pairing mechanism is. Now two groups have made contributions toward resolving these questions in the intriguing compound iron selenide (FeSe) (see the Perspective by Lee). Gerber <I>et al.</I> used photoemission spectroscopy coupled with x-ray diffraction to find that FeSe has a very sizable electron-phonon interaction. Quasiparticle interference imaging helped Sprau <I>et al.</I> determine the shape of the superconducting gap and find that the electron pairing in FeSe is orbital-selective.</P><P><I>Science</I>, this issue p. 71, p. 75; see also p. 32</P><P>The interactions that lead to the emergence of superconductivity in iron-based materials remain a subject of debate. It has been suggested that electron-electron correlations enhance electron-phonon coupling in iron selenide (FeSe) and related pnictides, but direct experimental verification has been lacking. Here we show that the electron-phonon coupling strength in FeSe can be quantified by combining two time-domain experiments into a “coherent lock-in” measurement in the terahertz regime. X-ray diffraction tracks the light-induced femtosecond coherent lattice motion at a single phonon frequency, and photoemission monitors the subsequent coherent changes in the electronic band structure. Comparison with theory reveals a strong enhancement of the coupling strength in FeSe owing to correlation effects. Given that the electron-phonon coupling affects superconductivity exponentially, this enhancement highlights the importance of the cooperative interplay between electron-electron and electron-phonon interactions.</P>
COMPUTATIONAL EXPERIMENT FOR FOCUSATORS INVESTIGATION
Doskolovich, L. L.,Golub, M. A.,Kazanskiy, N. L.,Soifer, V. A. 대한전자공학회 1992 HICEC:Harbin International Conference on Electroni Vol.1 No.1
Computer generated diffractive optical elements, known as $quot;focusators$quot;, provide for very complicated focal intensity distributions, depending on the number of pixels and quantization levels. The manufacturing of such elements is very expensive and must be preceded by computer simulation of their performance. Computer experiment with laser beam focusator into segments is described in this report, the estimations of power efficiency and focal line quality for various parameters of the phase digitization are obtained.