Search Results - "Mezentsev, A. N."

Complex bend: Strong-focusing magnet for low-emittance synchrotrons by Wang, G., Shaftan, T., Smaluk, V., Mezentsev, N. A., Sharma, S., Chubar, O., Hidaka, Y., Spataro, C.

“…Modern synchrotron light sources are competing intensively to increase x-ray brightness and, eventually, approach the diffraction limit, which sets the final…”
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Synthesis of a new element with atomic number Z = 117 by Oganessian, Yu Ts, Abdullin, F Sh, Bailey, P D, Benker, D E, Bennett, M E, Dmitriev, S N, Ezold, J G, Hamilton, J H, Henderson, R A, Itkis, M G, Lobanov, Yu V, Mezentsev, A N, Moody, K J, Nelson, S L, Polyakov, A N, Porter, C E, Ramayya, A V, Riley, F D, Roberto, J B, Ryabinin, M A, Rykaczewski, K P, Sagaidak, R N, Shaughnessy, D A, Shirokovsky, I V, Stoyer, M A, Subbotin, V G, Sudowe, R, Sukhov, A M, Tsyganov, Yu S, Utyonkov, V K, Voinov, A A, Vostokin, G K, Wilk, P A

“…The discovery of a new chemical element with atomic number Z=117 is reported. The isotopes (293)117 and (294)117 were produced in fusion reactions between…”
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Pre-manufacturing Design of the Superconducting Dipole Magnet for the CBM Detector by Bragin, A. V., Erokhin, A. I., Kholopov, M. A., Kremnev, A. A., Khrushchev, S. V., Mezentsev, N. A., Shkaruba, V. A., Syrovatin, V. M., Tsukanov, V. M.

“…The CBM detector will research compressed baryon matter on the FAIR facility, GSI, Darmstadt. The superconducting dipole magnet of this detector provides…”
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A Design Concept for a Planar Superconducting Undulator for the APS by Ivanyushenkov, Y, Abliz, M, Boerste, K, Buffington, T, Capatina, D, Dejus, R J, Doose, C, Fuerst, J, Hasse, Q, Jaski, M, Kasa, M, Kim, S H, Kustom, R L, Mezentsev, N A, Moog, E R, Skiadopoulos, D, Syrovatin, V M, Trakhtenberg, E M, Vasserman, I B, Xu, J

“…A superconducting planar undulator is under development at the Advanced Photon Source. The R&D phase culminated in the successful testing of several short…”
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Cryogenic System of a Superconducting Undulator, Based on Indirect Cooling by Khrushchev, S. V., Tsukanov, V. M., Shkaruba, V. A., Mezentsev, N. A., Safronov, A. N.

“…A description is given of a cryogenic system of a superconducting undulator with a period of 15.6 mm, a magnetic field of 1.2 T, and a magnetic gap of 8 mm,…”
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Development of a Planar Superconducting Undulator for the Advanced Photon Source by Ivanyushenkov, Y., Abliz, M., Boerste, K., Buffington, T., Doose, C., Fuerst, J., Hasse, Q., Kasa, M., Kim, S. H., Kustom, R. L., Lev, V., Mezentsev, N. A., Moog, E. R., Skiadopoulos, D., Syrovatin, V., Tsukanov, V., Trakhtenberg, E. M., Vasserman, I. B., Xu, J.

“…Superconducting technology offers the possibility of creating undulators for synchrotron light sources with better performance than conventional hybrid or pure…”
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Superconducting Solenoid (7 T) Indirectly Cooled by Cryocoolers for THz Radiation by Bragin, A. V., Volkov, A. A., Kubarev, V. V., Mezentsev, N. A., Tarasenko, O. A., Khrushchev, S. V., Tsukanov, V. M., Shkaruba, V. A.

“…The results of testing and performance characteristics of an indirectly cryocooled superconducting solenoid to be used at the tehrahertz (THz) spectroscopy…”
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Synchrotron Radiation Facility “Siberian Circular Photon Source” (SRF SKIF) by Bukhtiyarov, A. V., Bukhtiyarov, V. I., Zhuravlev, A. N., Zolotarev, K. V., Zubavichus, Ya. V., Levichev, E. B., Mezentsev, N. A., Nikolenko, A. D., Piminov, P. A., Churkin, I. N.

“…The main technical solutions chosen to implement the project of fourth-generation synchrotron radiation (SR) source Synchrotron Radiation Facility “Siberian…”
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Designing a Universal Undulator Beamline for Materials Science: A Conceptual Approach by Dolbnya, I. P., Bataev, I. A., Rakshun, Ya. V., Chernov, V. A., Khomyakov, Yu. V., Gorbachev, M. V., Chkhalo, N. I., Krasnorutsky, D. A., Naumkin, V. S., Sklyarov, A. N., Mezentsev, N. A., Korsunsky, A. M.

“…We present the conceptual design of a universal materials-research beamline based on the undulator of a fourth-generation synchrotron-radiation source. The…”
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Tuning Phase Errors of a Superconducting Undulator by Kanonik, P. V., Shkaruba, V. A., Volkov, A. A., Erokhin, A. I., Zorin, A. V., Kazantsev, F. P., Mezentsev, N. A., Tarasenko, O. A., Khrushchev, S. V., Tsukanov, V. M.

“…— The authors describe a way of tuning the magnetic field of a superconducting undulator with neutral poles developed at the Budker Institute of Nuclear…”
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Ways of Minimizing Magnetic Integrals in Superconducting Insertion Devices by Zorin, A. V., Mezentsev, N. A., Shkaruba, V. A., Tsukanov, V. M., Volkov, A. A., Tarasenko, O. A., Kanonik, P. V., Kazantsev, F. P.

“…Magnetic measurements using a stretched wire with a constant current are widely used in manufacturing insertion devices for generating synchrotron radiation…”
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Hall Probe Magnetic Measurements of a Superconducting Undulator by Tsukanov, V. M., Khrushchev, S. V., Volkov, A. A., Zorin, A. V., Kanonik, P. V., Mezentsev, N. A., Shkaruba, V. A.

“…The superconducting undulator with a 15.6-mm period and a 1.2-T magnetic field, described in this article, has a 8-mm magnetic gap. The magnetic measuring…”
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Superconducting Wigglers and Undulators for Synchrotron Radiation Generation at the SKIF Storage Ring by Shkaruba, V. A., Bragin, A. V., Volkov, A. A., Erokhin, A. I., Zorin, A. V., Kazantsev, F. P., Kanonik, P. V., Mezentsev, N. A., Safronov, A. N., Sedov, A. A., Tarasenko, O. A., Khrushchev, S. V., Tsukanov, V. M.

“…The main devices for generating synchrotron radiation at the SKIF synchrotron light facility under construction will be superconducting wigglers and undulators…”
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Superconducting Undulator with a Period of 15.6 mm and Magnetic Field of 1.2 T by Shkaruba, V. A., Bragin, A. V., Volkov, A. A., Erokhin, A. I., Zorin, A. V., Kazantsev, F. P., Kanonik, P. V., Mezentsev, N. A., Safronov, A. N., Sedov, A. A., Tarasenko, O. A., Khrushchev, S. V., Tsukanov, V. M.

“…A superconducting undulator created at the Budker Institute of Nuclear Physics with a period of 15.6 mm and a field of 1.2 T is tested in own undulator…”
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Synchrotron radiation in Novosibirsk: The first 13 years by Kulipanov, G. N., Mezentsev, N. A., Pindyurin, V. F.

“…We describe the development of activity at the Siberian Center for Synchrotron and Terahertz Radiation at Budker Institute of Nuclear Physics (BINP), SB RAS,…”
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Superconducting Multipole Wigglers for Generating Synchrotron Radiation at the Budker Institute of Nuclear Physics by Shkaruba, V. A., Bragin, A. V., Volkov, A. A., Erokhin, A. I., Zorin, A. V., Lev, V. Kh, Mezentsev, N. A., Safronov, A. N., Syrovatin, V. M., Tarasenko, O. A., Khrushchev, S. V., Tsukanov, V. M.

“…Superconducting multipole insertion devices (wigglers and undulators) used to generate synchrotron radiation significantly increase the photon flux, especially…”
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Structural study of light-emitting nanocomposites based on ZnS:Cu deposited by explosive evaporation method on porous anodic Al2O3 matrices by Beltyukov, A. N., Chukavin, A. I., Valeev, R. G., Trigub, A. L., El’kin, I. A., Kriventsov, V. V., Mezentsev, N. A.

“…In the work the results of structural studies of nanocomposite systems based on ZnS:Cu (5 at.% and 10 at.%) deposited by explosive evaporation on porous anodic…”
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Rapid measurement of the deformation of the liner in a superconducting wiggler when the magnets transition to the normal state by Zorin, A. V., Mezentsev, N. A., Tsukanov, V. M.

“…The liner of a superconducting wiggler is a thin-walled elliptical copper tube that is positioned inside the vacuum chamber and serves as a heat shield. When…”
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Local atomic structure and chemical bonds of zinc sulfide and selenide nanostructures in porous aluminum oxide matrices by Valeev, R. G., Beltukov, A. N., Kriventsov, V. V., Mezentsev, N. A., Chukavin, A. I.

“…The local atomic structure and chemical bonds of ZnSe and ZnS nanocomposites are studied. Both materials are obtained via thermal evaporation of the materials’…”
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Syntesis and structure investigations of nanostructures massive of GaAs by Valeev, R. G., Kobziev, V. F., Kriventsov, V. V., Mezentsev, N. A.

“…A new approach to the synthesis of ordered GaAs nanostructure massives via thermal deposition onto porous aluminum oxide matrices with ordered channel…”
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