Your search keyword '"Vasylyev O"' showing total 41 results

1. The Influence of the Anode Structure on the Electrical Properties of a Solid Oxide Fuel Cell

Author

Brodnikovskyi, Ye. M., Podhurska, V. Ya., Lysunenko, N. O., Brodnikovskyi, D. M., Polishko, I. O., Bezdorozhev, O. V., Kyrysha, A. A., and Vasylyev, O. D.

Published

2023

2. Catalytic Properties and Resource Characteristics of Modified Nickel Composites in the Processes of Oxidative Reforming of C1-C4 Alkanes

Author

Orlyk, S. M., Chedryk, V. I., Soloviev, S. O., and Vasylyev, O. D.

Published

2022

3. The investigation of 10Sc1CeSZ structure transformation and ionic conductivity

Author

Brodnikovska, I., Korsunska, N., Khomenkova, L., Polishchuk, Yu., Brychevskyi, M., Brodnikovskyi, Y., Brodnikovskyi, D., Polishko, I., and Vasylyev, O.

Published

2022

4. The Influence of the Anode Structure on the Electrical Properties of a Solid Oxide Fuel Cell

Author

Brodnikovskyi, Ye. M., primary, Podhurska, V. Ya., additional, Lysunenko, N. O., additional, Brodnikovskyi, D. M., additional, Polishko, I. O., additional, Bezdorozhev, O. V., additional, Kyrysha, A. A., additional, and Vasylyev, O. D., additional

Published

2024

5. Challenges in QCD matter physics - The Compressed Baryonic Matter experiment at FAIR

Author

CBM Collaboration, Ablyazimov, T., Abuhoza, A., Adak, R. P., Adamczyk, M., Agarwal, K., Aggarwal, M. M., Ahammed, Z., Ahmad, F., Ahmad, N., Ahmad, S., Akindinov, A., Akishin, P., Akishina, E., Akishina, T., Akishina, V., Akram, A., Al-Turany, M., Alekseev, I., Alexandrov, E., Alexandrov, I., Amar-Youcef, S., Anđelić, M., Andreeva, O., Andrei, C., Andronic, A., Anisimov, Yu., Appelshäuser, H., Argintaru, D., Atkin, E., Avdeev, S., Averbeck, R., Azmi, M. D., Baban, V., Bach, M., Badura, E., Bähr, S., Balog, T., Balzer, M., Bao, E., Baranova, N., Barczyk, T., Bartoş, D., Bashir, S., Baszczyk, M., Batenkov, O., Baublis, V., Baznat, M., Becker, J., Becker, K. -H., Belogurov, S., Belyakov, D., Bendarouach, J., Berceanu, I., Bercuci, A., Berdnikov, A., Berdnikov, Y., Berendes, R., Berezin, G., Bergmann, C., Bertini, D., Bertini, O., Beşliu, C., Bezshyyko, O., Bhaduri, P. P., Bhasin, A., Bhati, A. K., Bhattacharjee, B., Bhattacharyya, A., Bhattacharyya, T. K., Biswas, S., Blank, T., Blau, D., Blinov, V., Blume, C., Bocharov, Yu., Book, J., Breitner, T., Brüning, U., Brzychczyk, J., Bubak, A., Büsching, H., Bus, T., Butuzov, V., Bychkov, A., Byszuk, A., Cai, Xu, Cálin, M., Cao, Ping, Caragheorgheopol, G., Carević, I., Cătănescu, V., Chakrabarti, A., Chattopadhyay, S., Chaus, A., Chen, Hongfang, Chen, LuYao, Cheng, Jianping, Chepurnov, V., Cherif, H., Chernogorov, A., Ciobanu, M. I., Claus, G., Constantin, F., Csanád, M., D'Ascenzo, N., Das, Supriya, Das, Susovan, de Cuveland, J., Debnath, B., Dementiev, D., Deng, Wendi, Deng, Zhi, Deppe, H., Deppner, I., Derenovskaya, O., Deveaux, C. A., Deveaux, M., Dey, K., Dey, M., Dillenseger, P., Dobyrn, V., Doering, D., Dong, Sheng, Dorokhov, A., Dreschmann, M., Drozd, A., Dubey, A. K., Dubnichka, S., Dubnichkova, Z., Dürr, M., Dutka, L., Dželalija, M., Elsha, V. V., Emschermann, D., Engel, H., Eremin, V., Eşanu, T., Eschke, J., Eschweiler, D., Fan, Huanhuan, Fan, Xingming, Farooq, M., Fateev, O., Feng, Shengqin, Figuli, S. P. D., Filozova, I., Finogeev, D., Fischer, P., Flemming, H., Förtsch, J., Frankenfeld, U., Friese, V., Friske, E., Fröhlich, I., Frühauf, J., Gajda, J., Galatyuk, T., Gangopadhyay, G., Chávez, C. García, Gebelein, J., Ghosh, P., Ghosh, S. K., Gläßel, S., Goffe, M., Golinka-Bezshyyko, L., Golovatyuk, V., Golovnya, S., Golovtsov, V., Golubeva, M., Golubkov, D., Ramírez, A. Gómez, Gorbunov, S., Gorokhov, S., Gottschalk, D., Gryboś, P., Grzeszczuk, A., Guber, F., Gudima, K., Gumiński, M., Gupta, A., Gusakov, Yu., Han, Dong, Hartmann, H., He, Shue, Hehner, J., Heine, N., Herghelegiu, A., Herrmann, N., Heß, B., Heuser, J. M., Himmi, A., Höhne, C., Holzmann, R., Hu, Dongdong, Huang, Guangming, Huang, Xinjie, Hutter, D., Ierusalimov, A., Ilgenfritz, E. -M., Irfan, M., Ivanischev, D., Ivanov, M., Ivanov, P., Ivanov, Valery, Ivanov, Victor, Ivanov, Vladimir, Ivashkin, A., Jaaskelainen, K., Jahan, H., Jain, V., Jakovlev, V., Janson, T., Jiang, Di, Jipa, A., Kadenko, I., Kähler, P., Kämpfer, B., Kalinin, V., Kallunkathariyil, J., Kampert, K. -H., Kaptur, E., Karabowicz, R., Karavichev, O., Karavicheva, T., Karmanov, D., Karnaukhov, V., Karpechev, E., Kasiński, K., Kasprowicz, G., Kaur, M., Kazantsev, A., Kebschull, U., Kekelidze, G., Khan, M. M., Khan, S. A., Khanzadeev, A., Khasanov, F., Khvorostukhin, A., Kirakosyan, V., Kirejczyk, M., Kiryakov, A., Kiš, M., Kisel, I., Kisel, P., Kiselev, S., Kiss, T., Klaus, P., Kłeczek, R., Klein-Bösing, Ch., Kleipa, V., Klochkov, V., Kmon, P., Koch, K., Kochenda, L., Koczoń, P., Koenig, W., Kohn, M., Kolb, B. W., Kolosova, A., Komkov, B., Korolev, M., Korolko, I., Kotte, R., Kovalchuk, A., Kowalski, S., Koziel, M., Kozlov, G., Kozlov, V., Kramarenko, V., Kravtsov, P., Krebs, E., Kreidl, C., Kres, I., Kresan, D., Kretschmar, G., Krieger, M., Kryanev, A. V., Kryshen, E., Kuc, M., Kucewicz, W., Kucher, V., Kudin, L., Kugler, A., Kumar, Ajit, Kumar, Ashwini, Kumar, L., Kunkel, J., Kurepin, A., Kurepin, N., Kurilkin, A., Kurilkin, P., Kushpil, V., Kuznetsov, S., Kyva, V., Ladygin, V., Lara, C., Larionov, P., García, A. Laso, Lavrik, E., Lazanu, I., Lebedev, A., Lebedev, S., Lebedeva, E., Lehnert, J., Lehrbach, J., Leifels, Y., Lemke, F., Li, Cheng, Li, Qiyan, Li, Xin, Li, Yuanjing, Lindenstruth, V., Linnik, B., Liu, Feng, Lobanov, I., Lobanova, E., Löchner, S., Loizeau, P. -A., Lone, S. A., Martínez, J. A. Lucio, Luo, Xiaofeng, Lymanets, A., Lyu, Pengfei, Maevskaya, A., Mahajan, S., Mahapatra, D. P., Mahmoud, T., Maj, P., Majka, Z., Malakhov, A., Malankin, E., Malkevich, D., Malyatina, O., Malygina, H., Mandal, M. M., Mandal, S., Manko, V., Manz, S., Garcia, A. M. Marin, Markert, J., Masciocchi, S., Matulewicz, T., Meder, L., Merkin, M., Mialkovski, V., Michel, J., Miftakhov, N., Mik, L., Mikhailov, K., Mikhaylov, V., Milanović, B., Militsija, V., Miskowiec, D., Momot, I., Morhardt, T., Morozov, S., Müller, W. F. J., Müntz, C., Mukherjee, S., Castillo, C. E. Muńoz, Murin, Yu., Najman, R., Nandi, C., Nandy, E., Naumann, L., Nayak, T., Nedosekin, A., Negi, V. S., Niebur, W., Nikulin, V., Normanov, D., Oancea, A., Oh, Kunsu, Onishchuk, Yu., Ososkov, G., Otfinowski, P., Ovcharenko, E., Pal, S., Panasenko, I., Panda, N. R., Parzhitskiy, S., Patel, V., Pauly, C., Penschuck, M., Peshekhonov, D., Peshekhonov, V., Petráček, V., Petri, M., Petriş, M., Petrovici, A., Petrovici, M., Petrovskiy, A., Petukhov, O., Pfeifer, D., Piasecki, K., Pieper, J., Pietraszko, J., Płaneta, R., Plotnikov, V., Plujko, V., Pluta, J., Pop, A., Pospisil, V., Poźniak, K., Prakash, A., Prasad, S. K., Prokudin, M., Pshenichnov, I., Pugach, M., Pugatch, V., Querchfeld, S., Rabtsun, S., Radulescu, L., Raha, S., Rami, F., Raniwala, R., Raniwala, S., Raportirenko, A., Rautenberg, J., Rauza, J., Ray, R., Razin, S., Reichelt, P., Reinecke, S., Reinefeld, A., Reshetin, A., Ristea, C., Ristea, O., Rodriguez, A. Rodriguez, Roether, F., Romaniuk, R., Rost, A., Rostchin, E., Rostovtseva, I., Roy, Amitava, Roy, Ankhi, Rożynek, J., Ryabov, Yu., Sadovsky, A., Sahoo, R., Sahu, P. K., Sahu, S. K., Saini, J., Samanta, S., Sambyal, S. S., Samsonov, V., Rosado, J. Sánchez, Sander, O., Sarangi, S., Satława, T., Sau, S., Saveliev, V., Schatral, S., Schiaua, C., Schintke, F., Schmidt, C. J., Schmidt, H. R., Schmidt, K., Scholten, J., Schweda, K., Seck, F., Seddiki, S., Selyuzhenkov, I., Semennikov, A., Senger, A., Senger, P., Shabanov, A., Shabunov, A., Shao, Ming, Sheremetiev, A. D., Shi, Shusu, Shumeiko, N., Shumikhin, V., Sibiryak, I., Sikora, B., Simakov, A., Simon, C., Simons, C., Singaraju, R. N., Singh, A. K., Singh, B. K., Singh, C. P., Singhal, V., Singla, M., Sitzmann, P., Siwek-Wilczyńska, K., Škoda, L., Skwira-Chalot, I., Som, I., Song, Guofeng, Song, Jihye, Sosin, Z., Soyk, D., Staszel, P., Strikhanov, M., Strohauer, S., Stroth, J., Sturm, C., Sultanov, R., Sun, Yongjie, Svirida, D., Svoboda, O., Szabó, A., Szczygieł, R., Talukdar, R., Tang, Zebo, Tanha, M., Tarasiuk, J., Tarassenkova, O., Târzilă, M. -G., Teklishyn, M., Tischler, T., Tlustý, P., Tölyhi, T., Toia, A., Topil'skaya, N., Träger, M., Tripathy, S., Tsakov, I., Tsyupa, Yu., Turowiecki, A., Tuturas, N. G., Uhlig, F., Usenko, E., Valin, I., Varga, D., Vassiliev, I., Vasylyev, O., Verbitskaya, E., Verhoeven, W., Veshikov, A., Visinka, R., Viyogi, Y. P., Volkov, S., Volochniuk, A., Vorobiev, A., Voronin, Aleksey, Voronin, Alexander, Vovchenko, V., Vznuzdaev, M., Wang, Dong, Wang, Xi-Wei, Wang, Yaping, Wang, Yi, Weber, M., Wendisch, C., Wessels, J. P., Wiebusch, M., Wiechula, J., Wielanek, D., Wieloch, A., Wilms, A., Winckler, N., Winter, M., Wiśniewski, K., Wolf, Gy., Won, Sanguk, Wu, Ke-Jun, Wüstenfeld, J., Xiang, Changzhou, Xu, Nu, Yang, Junfeng, Yang, Rongxing, Yin, Zhongbao, Yoo, In-Kwon, Yuldashev, B., Yushmanov, I., Zabołotny, W., Zaitsev, Yu., Zamiatin, N. I., Zanevsky, Yu., Zhalov, M., Zhang, Yifei, Zhang, Yu, Zhao, Lei, Zheng, Jiajun, Zheng, Sheng, Zhou, Daicui, Zhou, Jing, Zhu, Xianglei, Zinchenko, A., Zipper, W., Żoładź, M., Zrelov, P., Zryuev, V., Zumbruch, P., and Zyzak, M.

Subjects

Nuclear Experiment

Abstract

Substantial experimental and theoretical efforts worldwide are devoted to explore the phase diagram of strongly interacting matter. At LHC and top RHIC energies, QCD matter is studied at very high temperatures and nearly vanishing net-baryon densities. There is evidence that a Quark-Gluon-Plasma (QGP) was created at experiments at RHIC and LHC. The transition from the QGP back to the hadron gas is found to be a smooth cross over. For larger net-baryon densities and lower temperatures, it is expected that the QCD phase diagram exhibits a rich structure, such as a first-order phase transition between hadronic and partonic matter which terminates in a critical point, or exotic phases like quarkyonic matter. The discovery of these landmarks would be a breakthrough in our understanding of the strong interaction and is therefore in the focus of various high-energy heavy-ion research programs. The Compressed Baryonic Matter (CBM) experiment at FAIR will play a unique role in the exploration of the QCD phase diagram in the region of high net-baryon densities, because it is designed to run at unprecedented interaction rates. High-rate operation is the key prerequisite for high-precision measurements of multi-differential observables and of rare diagnostic probes which are sensitive to the dense phase of the nuclear fireball. The goal of the CBM experiment at SIS100 (sqrt(s_NN) = 2.7 - 4.9 GeV) is to discover fundamental properties of QCD matter: the phase structure at large baryon-chemical potentials (mu_B > 500 MeV), effects of chiral symmetry, and the equation-of-state at high density as it is expected to occur in the core of neutron stars. In this article, we review the motivation for and the physics programme of CBM, including activities before the start of data taking in 2022, in the context of the worldwide efforts to explore high-density QCD matter., Comment: 15 pages, 11 figures. Published in European Physical Journal A

Published

2016

6. Commissioning of the PRIOR proton microscope

Author

Varentsov, D., Antonov, O., Bakhmutova, A., Barnes, C. W., Bogdanov, A., Danly, C. R., Efimov, S., Endres, M., Fertman, A., Golubev, A. A., Hoffmann, D. H. H., Ionita, B., Kantsyrev, A., Krasik, Ya. E., Lang, P. M., Lomonosov, I., Mariam, F. G., Markov, N., Merrill, F. E., Mintsev, V. B., Nikolaev, D., Panyushkin, V., Rodionova, M., Schanz, M., Schoenberg, K., Semennikov, A., Shestov, L., Skachkov, V. S., Turtikov, V., Udrea, S., Vasylyev, O., Weyrich, K., Wilde, C., and Zubareva, A.

Subjects

Physics - Instrumentation and Detectors

Abstract

Recently a new high energy proton microscopy facility PRIOR (Proton Microscope for FAIR) has been designed, constructed and successfully commissioned at GSI Helmholtzzentrum f\"ur Schwerionenforschung (Darmstadt, Germany). As a result of the experiments with 3.5-4.5 GeV proton beams delivered by the heavy ion synchrotron SIS-18 of GSI, 30 um spatial and 10 ns temporal resolutions of the proton microscope have been demostrated. A new pulsed power setup for studying properties of matter under extremes has been developed for the dynamic commissioning of the PRIOR facility. This paper describes the PRIOR setup as well as the results of the first static and dynamic proton radiography experiments performed at GSI., Comment: 9 pages, 13 figures, submitted to Review of Scientific Instruments

Published

2015

7. Grains, grain boundaries and total ionic conductivity of 10Sc1CeSZ and 8YSZ solid electrolytes affected by crystalline structure and dopant content

Author

Brodnikovska, I., Korsunska, N., Khomenkova, L., Polishchuk, Yu., Lavoryk, S., M. Brychevskyi, Brodnikovskyi, Y., and Vasylyev, O.

Published

2019

8. Properties of 10Sc1CeSZ-3.5YSZ(33-, 40-, 50-wt.%) Composite Ceramics for SOFC Application

Author

Brodnikovskyi, Y., McDonald, N., Polishko, I., Brodnikovskyi, D., Brodnikovska, I., Brychevskyi, M., Kovalenko, L., Vasylyev, O., Belous, A., and Steinberger-Wilckens, R.

Published

2019

9. Joint Impedance Spectroscopy Analysis of 10Sc1CeSZ and 8YSZ Solid Electrolytes for SOFC

Author

Brodnikovska, I. V., Brodnikovskyi, Y. M., Brychevskyi, M. M., and Vasylyev, O. D.

Published

2019

10. Influence of Treatment Temperature on Microstructure and Properties of YSZ–NiO Anode Materials

Author

Podhurska, V. Ya., Vasyliv, B. D., Ostash, O. P., Brodnikovskyi, Ye. M., Vasylyev, O. D., Fesenko, Olena, editor, and Yatsenko, Leonid, editor

Published

2016

11. Catalytic Activity and Resistance to Sulfur Poisoning of Nickel-Containing Composites Based on Stabilized Zirconia in Tri-reforming of Methane

Author

Kantserova, M. R., Orlyk, S. M., and Vasylyev, O. D.

Published

2018

12. Effect of Porosity on Strength and Electrical Conductivity of NiO–3.5YSZ Composite and Its Ni–3.5YSZ Cermet

Author

Polishko, I. O., Brodnikovskyi, Y. M., Brodnikovskyi, D. M., Vasyliv, B. D., Podhurska, V. Y., Shevchenko, S. M., Chedryk, V. I., Andrzejczuk, M., and Vasylyev, O. D.

Published

2017

13. Challenges in QCD matter physics --The scientific programme of the Compressed Baryonic Matter experiment at FAIR

Author

Ablyazimov, T., Abuhoza, A., Adak, R. P., Adamczyk, M., Agarwal, K., Aggarwal, M. M., Ahammed, Z., Ahmad, F., Ahmad, N., Ahmad, S., Akindinov, A., Akishin, P., Akishina, E., Akishina, T., Akishina, V., Akram, A., Al-Turany, M., Alekseev, I., Alexandrov, E., Alexandrov, I., Amar-Youcef, S., Anđelić, M., Andreeva, O., Andrei, C., Andronic, A., Anisimov, Yu., Appelshäuser, H., Argintaru, D., Atkin, E., Avdeev, S., Averbeck, R., Azmi, M. D., Baban, V., Bach, M., Badura, E., Bähr, S., Balog, T., Balzer, M., Bao, E., Baranova, N., Barczyk, T., Bartoş, D., Bashir, S., Baszczyk, M., Batenkov, O., Baublis, V., Baznat, M., Becker, J., Becker, K. -H., Belogurov, S., Belyakov, D., Bendarouach, J., Berceanu, I., Bercuci, A., Berdnikov, A., Berdnikov, Y., Berendes, R., Berezin, G., Bergmann, C., Bertini, D., Bertini, O., Beşliu, C., Bezshyyko, O., Bhaduri, P. P., Bhasin, A., Bhati, A. K., Bhattacharjee, B., Bhattacharyya, A., Bhattacharyya, T. K., Biswas, S., Blank, T., Blau, D., Blinov, V., Blume, C., Bocharov, Yu., Book, J., Breitner, T., Brüning, U., Brzychczyk, J., Bubak, A., Büsching, H., Bus, T., Butuzov, V., Bychkov, A., Byszuk, A., Cai, Xu, Cãlin, M., Cao, Ping, Caragheorgheopol, G., Carević, I., Cătănescu, V., Chakrabarti, A., Chattopadhyay, S., Chaus, A., Chen, Hongfang, Chen, LuYao, Cheng, Jianping, Chepurnov, V., Cherif, H., Chernogorov, A., Ciobanu, M. I., Claus, G., Constantin, F., Csanád, M., D’Ascenzo, N., Das, Supriya, Das, Susovan, de Cuveland, J., Debnath, B., Dementiev, D., Deng, Wendi, Deng, Zhi, Deppe, H., Deppner, I., Derenovskaya, O., Deveaux, C. A., Deveaux, M., Dey, K., Dey, M., Dillenseger, P., Dobyrn, V., Doering, D., Dong, Sheng, Dorokhov, A., Dreschmann, M., Drozd, A., Dubey, A. K., Dubnichka, S., Dubnichkova, Z., Dürr, M., Dutka, L., Dželalija, M., Elsha, V. V., Emschermann, D., Engel, H., Eremin, V., Eşanu, T., Eschke, J., Eschweiler, D., Fan, Huanhuan, Fan, Xingming, Farooq, M., Fateev, O., Feng, Shengqin, Figuli, S. P. D., Filozova, I., Finogeev, D., Fischer, P., Flemming, H., Förtsch, J., Frankenfeld, U., Friese, V., Friske, E., Fröhlich, I., Frühauf, J., Gajda, J., Galatyuk, T., Gangopadhyay, G., García Chávez, C., Gebelein, J., Ghosh, P., Ghosh, S. K., Gläßel, S., Goffe, M., Golinka-Bezshyyko, L., Golovatyuk, V., Golovnya, S., Golovtsov, V., Golubeva, M., Golubkov, D., Gómez Ramírez, A., Gorbunov, S., Gorokhov, S., Gottschalk, D., Gryboś, P., Grzeszczuk, A., Guber, F., Gudima, K., Gumiński, M., Gupta, A., Gusakov, Yu., Han, Dong, Hartmann, H., He, Shue, Hehner, J., Heine, N., Herghelegiu, A., Herrmann, N., Heß, B., Heuser, J. M., Himmi, A., Höhne, C., Holzmann, R., Hu, Dongdong, Huang, Guangming, Huang, Xinjie, Hutter, D., Ierusalimov, A., Ilgenfritz, E. -M., Irfan, M., Ivanischev, D., Ivanov, M., Ivanov, P., Ivanov, Valery, Ivanov, Victor, Ivanov, Vladimir, Ivashkin, A., Jaaskelainen, K., Jahan, H., Jain, V., Jakovlev, V., Janson, T., Jiang, Di, Jipa, A., Kadenko, I., Kähler, P., Kämpfer, B., Kalinin, V., Kallunkathariyil, J., Kampert, K. -H., Kaptur, E., Karabowicz, R., Karavichev, O., Karavicheva, T., Karmanov, D., Karnaukhov, V., Karpechev, E., Kasiński, K., Kasprowicz, G., Kaur, M., Kazantsev, A., Kebschull, U., Kekelidze, G., Khan, M. M., Khan, S. A., Khanzadeev, A., Khasanov, F., Khvorostukhin, A., Kirakosyan, V., Kirejczyk, M., Kiryakov, A., Kiš, M., Kisel, I., Kisel, P., Kiselev, S., Kiss, T., Klaus, P., Kłeczek, R., Klein-Bösing, Ch., Kleipa, V., Klochkov, V., Kmon, P., Koch, K., Kochenda, L., Koczoń, P., Koenig, W., Kohn, M., Kolb, B. W., Kolosova, A., Komkov, B., Korolev, M., Korolko, I., Kotte, R., Kovalchuk, A., Kowalski, S., Koziel, M., Kozlov, G., Kozlov, V., Kramarenko, V., Kravtsov, P., Krebs, E., Kreidl, C., Kres, I., Kresan, D., Kretschmar, G., Krieger, M., Kryanev, A. V., Kryshen, E., Kuc, M., Kucewicz, W., Kucher, V., Kudin, L., Kugler, A., Kumar, Ajit, Kumar, Ashwini, Kumar, L., Kunkel, J., Kurepin, A., Kurepin, N., Kurilkin, A., Kurilkin, P., Kushpil, V., Kuznetsov, S., Kyva, V., Ladygin, V., Lara, C., Larionov, P., Laso García, A., Lavrik, E., Lazanu, I., Lebedev, A., Lebedev, S., Lebedeva, E., Lehnert, J., Lehrbach, J., Leifels, Y., Lemke, F., Li, Cheng, Li, Qiyan, Li, Xin, Li, Yuanjing, Lindenstruth, V., Linnik, B., Liu, Feng, Lobanov, I., Lobanova, E., Löchner, S., Loizeau, P. -A., Lone, S. A., Lucio Martínez, J. A., Luo, Xiaofeng, Lymanets, A., Lyu, Pengfei, Maevskaya, A., Mahajan, S., Mahapatra, D. P., Mahmoud, T., Maj, P., Majka, Z., Malakhov, A., Malankin, E., Malkevich, D., Malyatina, O., Malygina, H., Mandal, M. M., Mandal, S., Manko, V., Manz, S., Marin Garcia, A. M., Markert, J., Masciocchi, S., Matulewicz, T., Meder, L., Merkin, M., Mialkovski, V., Michel, J., Miftakhov, N., Mik, L., Mikhailov, K., Mikhaylov, V., Milanović, B., Militsija, V., Miskowiec, D., Momot, I., Morhardt, T., Morozov, S., Müller, W. F. J., Müntz, C., Mukherjee, S., Muñoz Castillo, C. E., Murin, Yu., Najman, R., Nandi, C., Nandy, E., Naumann, L., Nayak, T., Nedosekin, A., Negi, V. S., Niebur, W., Nikulin, V., Normanov, D., Oancea, A., Oh, Kunsu, Onishchuk, Yu., Ososkov, G., Otfinowski, P., Ovcharenko, E., Pal, S., Panasenko, I., Panda, N. R., Parzhitskiy, S., Patel, V., Pauly, C., Penschuck, M., Peshekhonov, D., Peshekhonov, V., Petráček, V., Petri, M., Petriş, M., Petrovici, A., Petrovici, M., Petrovskiy, A., Petukhov, O., Pfeifer, D., Piasecki, K., Pieper, J., Pietraszko, J., Płaneta, R., Plotnikov, V., Plujko, V., Pluta, J., Pop, A., Pospisil, V., Poźniak, K., Prakash, A., Prasad, S. K., Prokudin, M., Pshenichnov, I., Pugach, M., Pugatch, V., Querchfeld, S., Rabtsun, S., Radulescu, L., Raha, S., Rami, F., Raniwala, R., Raniwala, S., Raportirenko, A., Rautenberg, J., Rauza, J., Ray, R., Razin, S., Reichelt, P., Reinecke, S., Reinefeld, A., Reshetin, A., Ristea, C., Ristea, O., Rodriguez Rodriguez, A., Roether, F., Romaniuk, R., Rost, A., Rostchin, E., Rostovtseva, I., Roy, Amitava, Roy, Ankhi, Rożynek, J., Ryabov, Yu., Sadovsky, A., Sahoo, R., Sahu, P. K., Sahu, S. K., Saini, J., Samanta, S., Sambyal, S. S., Samsonov, V., Sánchez Rosado, J., Sander, O., Sarangi, S., Satława, T., Sau, S., Saveliev, V., Schatral, S., Schiaua, C., Schintke, F., Schmidt, C. J., Schmidt, H. R., Schmidt, K., Scholten, J., Schweda, K., Seck, F., Seddiki, S., Selyuzhenkov, I., Semennikov, A., Senger, A., Senger, P., Shabanov, A., Shabunov, A., Shao, Ming, Sheremetiev, A. D., Shi, Shusu, Shumeiko, N., Shumikhin, V., Sibiryak, I., Sikora, B., Simakov, A., Simon, C., Simons, C., Singaraju, R. N., Singh, A. K., Singh, B. K., Singh, C. P., Singhal, V., Singla, M., Sitzmann, P., Siwek-Wilczyńska, K., Škoda, L., Skwira-Chalot, I., Som, I., Song, Guofeng, Song, Jihye, Sosin, Z., Soyk, D., Staszel, P., Strikhanov, M., Strohauer, S., Stroth, J., Sturm, C., Sultanov, R., Sun, Yongjie, Svirida, D., Svoboda, O., Szabó, A., Szczygieł, R., Talukdar, R., Tang, Zebo, Tanha, M., Tarasiuk, J., Tarassenkova, O., Târzilă, M. -G., Teklishyn, M., Tischler, T., Tlustý, P., Tölyhi, T., Toia, A., Topil’skaya, N., Träger, M., Tripathy, S., Tsakov, I., Tsyupa, Yu., Turowiecki, A., Tuturas, N. G., Uhlig, F., Usenko, E., Valin, I., Varga, D., Vassiliev, I., Vasylyev, O., Verbitskaya, E., Verhoeven, W., Veshikov, A., Visinka, R., Viyogi, Y. P., Volkov, S., Volochniuk, A., Vorobiev, A., Voronin, Aleksey, Voronin, Alexander, Vovchenko, V., Vznuzdaev, M., Wang, Dong, Wang, Xi-Wei, Wang, Yaping, Wang, Yi, Weber, M., Wendisch, C., Wessels, J. P., Wiebusch, M., Wiechula, J., Wielanek, D., Wieloch, A., Wilms, A., Winckler, N., Winter, M., Wiśniewski, K., Wolf, Gy., Won, Sanguk, Wu, Ke-Jun, Wüstenfeld, J., Xiang, Changzhou, Xu, Nu, Yang, Junfeng, Yang, Rongxing, Yin, Zhongbao, Yoo, In-Kwon, Yuldashev, B., Yushmanov, I., Zabołotny, W., Zaitsev, Yu., Zamiatin, N. I., Zanevsky, Yu., Zhalov, M., Zhang, Yifei, Zhang, Yu, Zhao, Lei, Zheng, Jiajun, Zheng, Sheng, Zhou, Daicui, Zhou, Jing, Zhu, Xianglei, Zinchenko, A., Zipper, W., Żoładź, M., Zrelov, P., Zryuev, V., Zumbruch, P., and Zyzak, M.

Published

2017

14. Microstructural changes in NiO–ScSZ composite following reduction processes in pure and diluted hydrogen

Author

Andrzejczuk, M., Vasylyev, O., Brodnikovskyi, I., Podhurska, V., Vasyliv, B., Ostash, O., Lewandowska, M., and Kurzydłowski, K.J.

Published

2014

15. Progress towards the development of cooling demonstrator for the STS detector of the CBM experiment at FAIR

Author

Agarwal, K., Koćzon, P., Lavrik, E., Schmidt, H.R., and Vasylyev, O.

Published

2019

16. SOFC Perspectives in Ukraine

Author

Vasylyev, O. D., Orlovskaya, Nina, editor, and Browning, Nigel, editor

Published

2004

17. Catalytic Properties and Resource Characteristics of Modified Nickel Composites in the Processes of Oxidative Reforming of C1-C4 Alkanes.

Author

Orlyk, S. M., Chedryk, V. I., Soloviev, S. O., and Vasylyev, O. D.

Subjects

STEAM reforming, SOLID oxide fuel cells, ALKANES, NICKEL, COPPER

Abstract

Modified nickel composites based on stabilized zirconia as prototypes of anode materials of solid oxide fuel cells (SOFC) showed high catalytic activity and stability in the oxidative reforming of alkanes (tri-reforming of methane and steam-(oxygen) reforming of butane). Modification of Ni-10Sc1CeSZ composite with Cu and CeO2 increases its resistance to carbonization, and doping with platinum or palladium (0.1 wt.%) increases the resistance to H2S poisoning. Structured Ni-(CeO2, La2O3)-Al2O3/cordierite catalysts are characterized by high activity and stability in the oxidative reforming of C1-C3 alkanes into syngas and can be effective in an external processor integrated with SOFC. Bench tests of the fuel cell showed the achievement of acceptable electrical characteristics. [ABSTRACT FROM AUTHOR]

Published

2022

18. Structural features and gas tightness of EB-PVD 1Ce10ScSZ electrolyte films

Author

Andrzejczuk, M., Vasylyev, O., Brychevskyi, M., Dubykivskyi, L., Smirnova, A., Lewandowska, M., Kurzydłowski, K. J., Steinberger-Wilckens, R., Mertens, J., and Haanappel, V.

Published

2012

19. CBM Collaboration

Author

Ablyazimov, T., primary, Adak, R.P., additional, Adler, A., additional, Agarwal, A., additional, Agarwal, K., additional, Ahammed, Z., additional, Ahmad, A., additional, Ahmad, F., additional, Ahmad, N., additional, Akindinov, A., additional, Akishin, P., additional, Akishina, V., additional, Al-Turany, M., additional, Alekseev, I., additional, Alexandrov, E., additional, Alexandrov, I., additional, Andronic, A., additional, Appelshäuser, H., additional, Argintaru, D., additional, Arnoldi-Meadows, B., additional, Atkin, E., additional, Azmi, M.D., additional, Baban, V., additional, Bähr, S., additional, Bajdel, M., additional, Balassa, G., additional, Balzer, M., additional, Baranova, N., additional, Bashir, S., additional, Baszczyk, M., additional, Bechtel, E., additional, Becker, J., additional, Becker, K.-H., additional, Becker, M., additional, Beckhoff, J., additional, Belogurov, S., additional, Belousov, A., additional, Bendarouach, J., additional, Bercuci, A., additional, Berendes, R., additional, Bertini, D., additional, Bertini, O., additional, Bezshyyko, O., additional, Bhaduri, P.P., additional, Bhasin, A., additional, Bhat, S.A., additional, Bhat, W.A., additional, Bhattacharjee, B., additional, Bhattacharyya, A., additional, Bhattacharyya, T.K., additional, Biswas, S., additional, Blank, T., additional, Blau, D., additional, Blume, C., additional, Brzychczyk, J., additional, Bus, T., additional, Bychkov, A., additional, Cãlin, M., additional, Caselle, M., additional, Chakrabarti, A., additional, Chatterjee, S., additional, Chattopadhyay, S., additional, Chaus, A., additional, Cherif, H., additional, Chudoba, P., additional, Clerkin, E., additional, Csanád, M., additional, Dahm, P., additional, Das, Supriya, additional, Susovan, Das, additional, de Cuveland, J., additional, Demanov, A., additional, Dementiev, D., additional, Deng, Wendi, additional, Deng, Zhi, additional, Deppe, H., additional, Deppner, I., additional, Derenovskaya, O., additional, Deveaux, M., additional, Ding, Zhiguo, additional, Dong, Sheng, additional, Dorenskaya, E., additional, Dorosz, P., additional, Dubey, A.K., additional, Dubla, A., additional, Dürr, M., additional, Elsha, V.V., additional, Emschermann, D., additional, Engel, H., additional, Eşanu, T., additional, Eschke, J., additional, Esen, M., additional, Fan, Xingming, additional, Fateev, O., additional, Feier-Riesen, C., additional, Feng, Sheng-Qin, additional, Fidorra, F., additional, Figuli, S.P.D., additional, Finogeev, D., additional, Fischer, P., additional, Flemming, H., additional, Förtsch, J., additional, Foka, P., additional, Frankenfeld, U., additional, Friese, V., additional, Friske, E., additional, Fröhlich, I., additional, Frühauf, J., additional, Galatyuk, T., additional, Ganai, R., additional, Gangopadhyay, G., additional, Gao, Xin, additional, Gasik, P., additional, Geßler, T., additional, Ghosh, C., additional, Ghosh, S.K., additional, Giang, D., additional, Gläßel, S., additional, Golinka-Bezshyyko, L., additional, Golosov, O., additional, Golovnya, S., additional, Golubeva, M., additional, Golubkov, D., additional, Gope, S., additional, Gorbunov, S., additional, Gorokhov, S., additional, Gottschalk, D., additional, Gryboś, P., additional, Guber, F., additional, Gumiński, M., additional, Gupta, A., additional, Gusakov, Yu., additional, Haas, R., additional, Han, Dong, additional, Hartmann, H., additional, He, Shu, additional, Hehner, J., additional, Heine, N., additional, Herrmann, N., additional, Heuser, J.M., additional, Höhne, C., additional, Holzmann, R., additional, Hu, Dongdong, additional, Huang, Guangming, additional, Huang, Xinjie, additional, Hutter, D., additional, Irfan, M., additional, Ivanishchev, D., additional, Ivanov, P., additional, Ivanov, Victor, additional, Ivanov, Vladimir, additional, Ivashkin, A., additional, Izvestnyy, A., additional, Jahan, H., additional, Janson, T., additional, Jash, A., additional, Jipa, A., additional, Kadenko, I., additional, Kähler, P., additional, Kämpfer, B., additional, Kampert, K.-H., additional, Kapell, R., additional, Karabowicz, R., additional, Kargin, N., additional, Karmanov, D., additional, Karpushkin, N., additional, Kashirin, E., additional, Kashyap, V.K.S., additional, Kasiński, K., additional, Kasprowicz, G., additional, Kazantsev, A., additional, Kebschull, U., additional, Kekelidze, G., additional, Khan, M.M., additional, Khan, S., additional, Khanzadeev, A., additional, Khasanov, F., additional, Kiryakov, A., additional, Kiš, M., additional, Kisel, I., additional, Kisel, P., additional, Kiselev, S., additional, Kiss, T., additional, Klaus, P., additional, Kłeczek, R., additional, Klein-Bösing, Ch., additional, Klochkov, V., additional, Kmon, P., additional, Koch, K., additional, Kochenda, L., additional, Koczoń, P., additional, Kohn, M., additional, Kolb, R., additional, Kolozhvari, A., additional, Komkov, B., additional, Korolev, M., additional, Korolko, I., additional, Kot, O., additional, Kotte, R., additional, Kovalchuk, O., additional, Koziel, M., additional, Kozlov, G., additional, Kozlov, V., additional, Kravtsov, P., additional, Kres, I., additional, Kresan, D., additional, Kruszewski, M., additional, Kryanev, A.V., additional, Kryshen, E., additional, Krzyżanowska, A., additional, Kucewicz, W., additional, Kudin, L., additional, Kudryashov, I., additional, Kugler, A., additional, Kuhl, P., additional, Kumar, Ajay, additional, Kumar, Ajit, additional, Kumar, L., additional, Kundu, S.K., additional, Kurepin, A., additional, Kurepin, N., additional, Kurilkin, P., additional, Kuznetsov, S., additional, Kyva, V., additional, Ladygin, V., additional, Lara, C., additional, Lavrik, E., additional, Lazanu, I., additional, Lebedev, A., additional, Lebedev, S., additional, Lebedeva, E., additional, Lehnert, J., additional, Leifels, Y., additional, Li, Chao, additional, Li, Yuanjing, additional, Lindenstruth, V., additional, Liu, Feng, additional, Lobanov, I., additional, Lobanova, E., additional, Löchner, S., additional, Loizeau, P.-A., additional, Łojek, K., additional, Lubynets, O., additional, Lucio Martínez, J.A., additional, Luo, Xiaofeng, additional, Lymanets, A., additional, Lyu, Pengfei, additional, Lyublev, N., additional, Ma, Jian-Hao, additional, Maevskaya, A., additional, Mahajan, S., additional, Maj, P., additional, Majka, Z., additional, Malakhov, A., additional, Malankin, E., additional, Malkevich, D., additional, Mallick, B., additional, Malyatina, O., additional, Mandal, M., additional, Manko, V., additional, Maragoto Rodriguez, O., additional, Marin Garcia, A.M., additional, Markert, J., additional, Matulewicz, T., additional, Mehta, S., additional, Merkin, M., additional, Meyer-Ahrens, A., additional, Michel, J., additional, Miedzik, P., additional, Mik, L., additional, Mikhailov, K., additional, Mikhaylov, V., additional, Militsija, V., additional, Mir, M.F., additional, Miskowiec, D., additional, Mohanty, B., additional, Momot, I., additional, Morgenweck, H., additional, Morhardt, T., additional, Morozov, S., additional, Mühlheim, D., additional, Müller, W.F.J., additional, Müntz, C., additional, Mukherjee, S., additional, Munkes, P., additional, Murin, Yu., additional, Nandy, E., additional, Naumann, L., additional, Nayak, T., additional, Nickels, F., additional, Niebur, W., additional, Nikulin, V., additional, Normanov, D., additional, Olar, A., additional, Otfinowski, P., additional, Otto, J.H., additional, Ovcharenko, E., additional, Pan, Liang-ming, additional, Panasenko, I., additional, Pandey, S., additional, Parfenov, P., additional, Parzhitskiy, S., additional, Patel, V., additional, Pauly, C., additional, Petráček, V., additional, Petri, M., additional, Petriş, M., additional, Petrovici, M., additional, Petukhov, O., additional, Pfeifer, D., additional, Pfistner, P., additional, Piasecki, K., additional, Pietraszko, J., additional, Pitsch, G., additional, Płaneta, R., additional, Plotnikov, V., additional, Plujko, V., additional, Pluta, J., additional, Poźniak, K., additional, Prasad, S.K., additional, Prokudin, M., additional, Prozorov, A., additional, Pugach, M., additional, Pugatch, V., additional, Puntke, A., additional, Querchfeld, S., additional, Radulescu, L., additional, Raha, S., additional, Raisig, P., additional, Raja, W., additional, Ramazanov, D., additional, Rautenberg, J., additional, Ray, R., additional, Redelbach, A., additional, Rehman, T., additional, Reinefeld, A., additional, Reshetin, A., additional, Ristea, C., additional, Ristea, O., additional, Rodriguez Rodriguez, A., additional, Roether, F., additional, Romaniuk, R., additional, Rost, A., additional, Rostchin, E., additional, Roy, A., additional, Roy, D., additional, Roy, S., additional, Rubio, E., additional, Rustamov, A., additional, Ryabov, Yu., additional, Sahoo, R., additional, Sahu, P.K., additional, Sahu, S.K., additional, Saini, J., additional, Salem, F., additional, Samanta, S., additional, Sambyal, S.S., additional, Samsonov, V., additional, Sander, O., additional, Sarangi, S., additional, Sau, S., additional, Schiaua, C., additional, Schintke, F., additional, Schmidt, C.J., additional, Schmidt, D., additional, Schmidt, H.R., additional, Schneider, P.M., additional, Schütt, T., additional, Seck, F., additional, Segal, I., additional, Selyuzhenkov, I., additional, Semennikov, A., additional, Sen, A., additional, Senger, A., additional, Senger, P., additional, Shabanov, A., additional, Shabunov, A., additional, Sharma, N., additional, Sheremetiev, A.D., additional, Shi, Shusu, additional, Shirinkin, S., additional, Shiroya, M., additional, Shitenkow, M., additional, Shumikhin, V., additional, Sibiryak, I., additional, Sidorenko, V., additional, Simon, C., additional, Simons, C., additional, Singh, A.K., additional, Singh, B.K., additional, Singh, C.P., additional, Singh, O., additional, Singh, R., additional, Singhal, V., additional, Škoda, L., additional, Smith, D., additional, Söhngen, Y., additional, Som, I., additional, Spicker, D., additional, Stach, D., additional, Staszel, P., additional, Storozhyk, D., additional, Strikhanov, M., additional, Stroth, J., additional, Stüllein, C., additional, Sturm, C., additional, Su, Yuan, additional, Sukhov, N., additional, Sultanov, R., additional, Sun, Yongjie, additional, Sun, Zhengyang, additional, Svirida, D., additional, Szczygieł, R., additional, Taranenko, A., additional, Tarassenkova, O., additional, Tölyhi, T., additional, Toia, A., additional, Topil'skaya, N., additional, Träger, M., additional, Traxler, M., additional, Trifonova, E., additional, Tsyupa, Yu., additional, Tuturas, N.G., additional, Uhlig, F., additional, Unger, K.L., additional, Usenko, E., additional, Varga, D., additional, Vassiliev, I., additional, Vasylyev, O., additional, Visinka, R., additional, Völkl, M., additional, Volkova, E., additional, Vorobiev, A., additional, Voronin, A., additional, Wahmes, L., additional, Wang, Botan, additional, Wang, Dong, additional, Wang, Tianxing, additional, Wang, Xinjian, additional, Wang, Yi, additional, Weber, A.A., additional, Weber, M., additional, Weidenkaff, P., additional, Weiglhofer, F., additional, Wessels, J.P., additional, Wielanek, D., additional, Wieloch, A., additional, Wilms, A., additional, Wójcik, D., additional, Wolf, Gy., additional, Wu, Ke-Jun, additional, Wu, Qiqi, additional, Yang, Junfeng, additional, Yang, Rongxing, additional, Yin, Zhongbao, additional, Yoo, In-Kwon, additional, Yuan, Jianhui, additional, Yushmanov, I., additional, Zabołotny, W., additional, Zaitsev, Yu., additional, Zamiatin, N.I., additional, Zbroszczyk, H., additional, Zhalov, M., additional, Zhang, Qiunan, additional, Zhang, Xiaoming, additional, Zhang, Yu, additional, Zhao, Yan-Qing, additional, Zheng, Sheng, additional, Zhou, Daicui, additional, Zhou, Jian, additional, Zhou, Wenxiong, additional, Zhu, Xianglei, additional, Zinchenko, A., additional, Zivko, I., additional, Żoładź, M., additional, Zorn, F., additional, Zubrzycka, W., additional, Zumbruch, P., additional, and Zyzak, M., additional

Published

2021

20. Hot forming behaviour of Ti–Al–Zr–Si “in situ” metal matrix composite by means of hot torsion tests

Author

Cavaliere, P., El Mehtedi, M., Evangelista, E., Kuzmenko, N., and Vasylyev, O.

Published

2006

21. Scandia –Stabilized Zirconia: Effect of Dopants on Surface/Grain Boundary Segregation and Transport Properties

Author

Smirnova, A., Sadykov, V., Muzykantov, V., Mezentseva, N., Ivanov, V., Zaikovskii, V., Ishchenko, A., Sammes, N., Vasylyev, O., Kilner, J., Irvine, J., Vereschak, V., Kosacki, I., Uvarov, N., and Zyryanov, V.

Published

2006

22. Хірургічне лікування місцево-розповсюджених та рецидивних солідних пухлин черевної порожнини та заочеревинного простору з нефректомією ex vivo ex situ та аутотрансплантацією нирки

Author

Vasylyev, O. V., primary, Sikachyov, S. S., primary, Kvasivka, O. O., primary, Kopetskyi, V. I., primary, Cheverdyuk, D. O., primary, Dorozhynskyi, V. I., primary, Vitruk, Yu. V., primary, Stakhovskyi, O. E., primary, and Kopchak, K. V., primary

Published

2018

23. Challenges in QCD matter physics - The Compressed Baryonic Matter experiment at FAIR

Author

Ablyazimov, T., Abuhoza, A., Adak, R. P., Adamczyk, M., Agarwal, K., Aggarwal, M. M., Ahammed, Z., Ahmad, F., Ahmad, N., Ahmad, S., Akindinov, A., Akishin, P., Akishina, E., Akishina, T., Akishina, V., Akram, A., Al-Turany, M., Alekseev, I., Alexandrov, E., Alexandrov, I., Amar-Youcef, S., Anđelić, M., Andreeva, O., Andrei, C., Andronic, A., Anisimov, Y., Appelshäuser, H., Argintaru, D., Atkin, E., Avdeev, S., Averbeck, R., Azmi, M. D., Baban, V., Bach, M., Badura, E., Bähr, S., Balog, T., Balzer, M., Bao, E., Baranova, N., Barczyk, T., Bartoş, D., Bashir, S., Baszczyk, M., Batenkov, O., Baublis, V., Baznat, M., Becker, J., Becker, K.-H., Belogurov, S., Belyakov, D., Bendarouach, J., Berceanu, I., Bercuci, A., Berdnikov, A., Berdnikov, Y., Berendes, R., Berezin, G., Bergmann, C., Bertini, D., Bertini, O., Beşliu, C., Bezshyyko, O., Bhaduri, P. P., Bhasin, A., Bhati, A. K., Bhattacharjee, B., Bhattacharyya, A., Bhattacharyya, T. K., Biswas, S., Blank, T., Blau, D., Blinov, V., Blume, C., Bocharov, Y., Book, J., Breitner, T., Brüning, U., Brzychczyk, J., Bubak, A., Büsching, H., Bus, T., Butuzov, V., Bychkov, A., Byszuk, A., Cai, X., Cálin, M., Cao, P., Caragheorgheopol, G., Carević, I., Cătănescu, V., Chakrabarti, A., Chattopadhyay, S., Chaus, A., Chen, H., Chen, L., Chen, J., Chepurnov, V., Cherif, H., Chernogorov, A., Ciobanu, M. I., Claus, G., Constantin, F., Csanád, M., D'Ascenzo, N., Das, S., Cuveland, J., Debnath, B., Dementiev, D., Deng, W., Deng, C., Deppe, H., Deppner, I., Derenovskaya, O., Deveaux, C. A., Deveaux, M., Dey, K., Dey, M., Dillenseger, P., Dobyrn, V., Doering, D., Dong, S., Dorokhov, A., Dreschmann, M., Drozd, A., Dubey, A. K., Dubnichka, S., Dubnichkova, Z., Dürr, M., Dutka, L., Dželalija, M., Elsha, V. V., Emschermann, D., Engel, H., Eremin, V., Eşanu, T., Eschke, J., Eschweiler, D., Fan, H., Fan, X., Farooq, M., Fateev, O., Feng, S., Figuli, S. P. D., Filozova, I., Finogeev, D., Fischer, P., Flemming, H., Förtsch, J., Frankenfeld, U., Friese, V., Friske, E., Fröhlich, I., Frühauf, J., Gajda, J., Galatyuk, T., Gangopadhyay, G., García Chávez, C., Gebelein, J., Ghosh, P., Ghosh, S. K., Gläßel, S., Goffe, M., Golinka-Bezshyyko, L., Golovatyuk, V., Golovnya, S., Golovtsov, V., Golubeva, M., Golubkov, D., Gómez Ramírez, A., Gorbunov, S., Gorokhov, S., Gottschalk, D., Gryboś, P., Grzeszczuk, A., Guber, F., Gudima, K., Gumiński, M., Gupta, A., Gusakov, Y., Han, D., Hartmann, H., He, S., Hehner, J., Heine, N., Herghelegiu, A., Herrmann, N., Heß, B., Heuser, J. 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Abstract

Substantial experimental and theoretical efforts worldwide are devoted to explore the phase diagram of strongly interacting matter. At LHC and top RHIC energies, QCD matter is studied at very high temperatures and nearly vanishing net-baryon densities. There is evidence that a Quark-Gluon-Plasma (QGP) was created at experiments at RHIC and LHC. The transition from the QGP back to the hadron gas is found to be a smooth cross over. For larger net-baryon densities and lower temperatures, it is expected that the QCD phase diagram exhibits a rich structure, such as a first-order phase transition between hadronic and partonic matter which terminates in a critical point, or exotic phases like quarkyonic matter. The discovery of these landmarks would be a breakthrough in our understanding of the strong interaction and is therefore in the focus of various high-energy heavy-ion research programs. The Compressed Baryonic Matter (CBM) experiment at FAIR will play a unique role in the exploration of the QCD phase diagram in the region of high net-baryon densities, because it is designed to run at unprecedented interaction rates. High-rate operation is the key prerequisite for high-precision measurements of multi-differential observables and of rare diagnostic probes which are sensitive to the dense phase of the nuclear fireball. The goal of the CBM experiment at SIS100 (sqrt(s_NN) = 2.7 - 4.9 GeV) is to discover fundamental properties of QCD matter: the phase structure at large baryon-chemical potentials (mu_B > 500 MeV), effects of chiral symmetry, and the equation-of-state at high density as it is expected to occur in the core of neutron stars. In this article, we review the motivation for and the physics programme of CBM, including activities before the start of data taking in 2022, in the context of the worldwide efforts to explore high-density QCD matter.

Published

2017

24. The boundaries and their impact on properties of zirconia electrolyte

Author

Vasylyev, O., Brychevskyi, M., Brodnikovskyi, Y., Brodnikovska, I., and Firstov, S.

Abstract

Interfaces and their complexions created in the zirconia 1Ce10ScSZ ceramic electrolyte and altered by three powder types and sintering temperatures were studied via their effect on mechanical behavior and electrical conductivity. Two boundary complexions, which exist and developed between subgrains and grains with sintering temperature were observed. The transition between boundary categories, which was defined as the boundary complexion transition of the second kind, occurs in both very pure 1Ce10ScSZ ceramics and in ceramics of technical purity, powder of which is contaminated with rather large amounts of silica and titania. The ceramics contaminated with rather large amount of silica and alumina does not reveal any complexion transitions. Joint analysis of data obtained with electron microscopy and related techniques, mechanical tests for strength, scanning electron fractography and impedance spectroscopy of structural constituents of electrical resistance has given a lot of information on the effect of boundaries and their complexions on properties of electrolyte where mechanical behavior is as important as their conductivity. Межі та їхні комплекси в керамічному електроліті 1Ce10ScSZ, які були утворені і змінювані застосуванням трьох типів вихідних порошків і різних режимів спікання, вивчені через їхній вплив на механічну поведінку та електропровідність. Спільний аналіз даних, отриманих методами електронної мікроскопії та іншими, пов’язаними із нею, методами механічних випробувань на міцність, скануючої електронної фрактографії та імпедансної спектроскопії структурних складових електричного опору, надав багато інформації щодо впливу меж та їхніх комплексів на властивості електроліту, для якого механічна поведінка є настільки важливою, як і його провідність. Спостережено корелятивний вплив меж, які визначаються вихідними типами порошків та температурою їхнього спікання, на механічну поведінку і електричну провідність електроліту. Визначено два типи межевих комплексів, які існують і розвиваються між субзернами та зернами з ростом температури спікання. Перехід між цими категоріями меж, що було названо переходом межевих комплексів другого роду, відбувається як в хімічно чистій кераміці 1Ce10ScSZ, так і в кераміці технічної чистоти, порошки якої збагачені досить значною кількістю оксидів кремнію та титану. В кераміці 1Ce10ScSZ з великим вмістом оксидів кремнію та алюмінію помітних переходів не виявлено. Образованные в керамическом электролите 1Ce10ScSZ границы и их комплексы, измененные посредством контроля температуры спекания с использованием исходных порошков трёх типов, исследовали, анализируя их влияние на механическое поведение и электропроводность. Комплексная обработка данных, полученных методами электронной микроскопии и дригими, связаннными с ней, методами механических испытаний на прочность, сканирующей электронной фрактографии, а также импедансной спектроскопией структурных составляющих электрического сопротивления, предоставила информацию о влиянии границ и их соединений на свойства электролита, для которого механическое поведение также важно, как и его проводимость. Наблюдалась корреляция между влиянием границ, определенных исходными порошками трёх типов и температурой их спекания, на механическое поведение и электрическую проводимость электролита 1Ce10ScSZ. Найдено две комбинации граничных комплексов, которые существуют и улучшаются с ростом температуры спекания между субзернами и зернами. Переход между видами граничных комплексов, который был определен как переход второго рода, происходит как в химически чистой керамике 1Ce10ScSZ, так и в керамике технической чистоты из порошков, обогащенных оксидами кремния и титана. В керамике 1Ce10ScSZ содержащей значительные количества оксидов кремния и алюминия, переходы не обнаружены.

Published

2015

25. Challenges in QCD matter physics - The Compressed Baryonic Matter experiment at FAIR

Author

Ablyazimov, T., Abuhoza, A., Adak, R. P., Adamczyk, M., Agarwal, K., Aggarwal, M. M., Ahammed, Z., Ahmad, F., Ahmad, N., Ahmad, S., Akindinov, A., Akishin, P., Akishina, E., Akishina, T., Akishina, V., Akram, A., Al-Turany, M., Alekseev, I., Alexandrov, E., Alexandrov, I., Amar-Youcef, S., Anđelić, M., Andreeva, O., Andrei, C., Andronic, A., Anisimov, Y., Appelshäuser, H., Argintaru, D., Atkin, E., Avdeev, S., Averbeck, R., Azmi, M. D., Baban, V., Bach, M., Badura, E., Bähr, S., Balog, T., Balzer, M., Bao, E., Baranova, N., Barczyk, T., Bartoş, D., Bashir, S., Baszczyk, M., Batenkov, O., Baublis, V., Baznat, M., Becker, J., Becker, K.-H., Belogurov, S., Belyakov, D., Bendarouach, J., Berceanu, I., Bercuci, A., Berdnikov, A., Berdnikov, Y., Berendes, R., Berezin, G., Bergmann, C., Bertini, D., Bertini, O., Beşliu, C., Bezshyyko, O., Bhaduri, P. P., Bhasin, A., Bhati, A. K., Bhattacharjee, B., Bhattacharyya, A., Bhattacharyya, T. K., Biswas, S., Blank, T., Blau, D., Blinov, V., Blume, C., Bocharov, Y., Book, J., Breitner, T., Brüning, U., Brzychczyk, J., Bubak, A., Büsching, H., Bus, T., Butuzov, V., Bychkov, A., Byszuk, A., Cai, X., Cálin, M., Cao, P., Caragheorgheopol, G., Carević, I., Cătănescu, V., Chakrabarti, A., Chattopadhyay, S., Chaus, A., Chen, H., Chen, L., Chen, J., Chepurnov, V., Cherif, H., Chernogorov, A., Ciobanu, M. I., Claus, G., Constantin, F., Csanád, M., D'Ascenzo, N., Das, S., Cuveland, J., Debnath, B., Dementiev, D., Deng, W., Deng, C., Deppe, H., Deppner, I., Derenovskaya, O., Deveaux, C. A., Deveaux, M., Dey, K., Dey, M., Dillenseger, P., Dobyrn, V., Doering, D., Dong, S., Dorokhov, A., Dreschmann, M., Drozd, A., Dubey, A. K., Dubnichka, S., Dubnichkova, Z., Dürr, M., Dutka, L., Dželalija, M., Elsha, V. V., Emschermann, D., Engel, H., Eremin, V., Eşanu, T., Eschke, J., Eschweiler, D., Fan, H., Fan, X., Farooq, M., Fateev, O., Feng, S., Figuli, S. P. D., Filozova, I., Finogeev, D., Fischer, P., Flemming, H., Förtsch, J., Frankenfeld, U., Friese, V., Friske, E., Fröhlich, I., Frühauf, J., Gajda, J., Galatyuk, T., Gangopadhyay, G., García Chávez, C., Gebelein, J., Ghosh, P., Ghosh, S. K., Gläßel, S., Goffe, M., Golinka-Bezshyyko, L., Golovatyuk, V., Golovnya, S., Golovtsov, V., Golubeva, M., Golubkov, D., Gómez Ramírez, A., Gorbunov, S., Gorokhov, S., Gottschalk, D., Gryboś, P., Grzeszczuk, A., Guber, F., Gudima, K., Gumiński, M., Gupta, A., Gusakov, Y., Han, D., Hartmann, H., He, S., Hehner, J., Heine, N., Herghelegiu, A., Herrmann, N., Heß, B., Heuser, J. M., Himmi, A., Höhne, C., Holzmann, R., Hu, D., Huang, G., Huang, X., Hutter, D., Ierusalimov, A., Ilgenfritz, E.-M., Irfan, M., Ivanischev, D., Ivanov, M., Ivanov, P., Ivanov, V., Ivashkin, A., Jaaskelainen, K., Jahan, H., Jain, V., Jakovlev, V., Janson, T., Jiang, D., Jipa, A., Kadenko, I., Kähler, P., Kämpfer, B., Kalinin, V., Kallunkathariyil, J., Kampert, K.-H., Kaptur, E., Karabowicz, R., Karavichev, O., Karavicheva, T., Karmanov, D., Karnaukhov, V., Karpechev, E., Kasiński, K., Kasprowicz, G., Kaur, M., Kazantsev, A., Kebschull, U., Kekelidze, G., Khan, M. M., Khan, S. A., Khanzadeev, A., Khasanov, F., Khvorostukhin, A., Kirakosyan, V., Kirejczyk, M., Kiryakov, A., Kiš, M., Kisel, I., Kisel, P., Kiselev, S., Kiss, T., Klaus, P., Kłeczek, R., Klein-Bösing, C., Kleipa, V., Klochkov, V., Kmon, P., Koch, K., Kochenda, L., Koczoń, P., Koenig, W., Kohn, M., Kolb, B. W., Kolosova, A., Komkov, B., Korolev, M., Korolko, I., Kotte, R., Kovalchuk, A., Kowalski, S., Koziel, M., Kozlov, G., Kozlov, V., Kramarenko, V., Kravtsov, P., Krebs, E., Kreidl, C., Kres, I., Kresan, D., Kretschmar, G., Krieger, M., Kryanev, A. V., Kryshen, E., Kuc, M., Kucewicz, W., Kucher, V., Kudin, L., Kugler, A., Kumar, A., Kumar, L., Kunkel, J., Kurepin, A., Kurepin, N., Kurilkin, A., Kurilkin, P., Kushpil, V., Kuznetsov, S., Kyva, V., Ladygin, V., Lara, C., Larionov, P., Laso García, A., Lavrik, E., Lazanu, I., Lebedev, A., Lebedev, S., Lebedeva, E., Lehnert, J., Lehrbach, J., Leifels, Y., Lemke, F., Li, C., Li, Q., Li, X., Li, Y., Lindenstruth, V., Linnik, B., Liu, F., Lobanov, I., Lobanova, E., Löchner, S., Loizeau, P.-A., Lone, S. A., Lucio Martínez, J. A., Luo, X., Lymanets, A., Lyu, P., Maevskaya, A., Mahajan, S., Mahapatra, D. P., Mahmoud, T., Maj, P., Majka, Z., Malakhov, A., Malankin, E., Malkevich, D., Malyatina, O., Malygina, H., Mandal, M. M., Mandal, S., Manko, V., Manz, S., Marin Garcia, A. M., Markert, J., Masciocchi, S., Matulewicz, T., Meder, L., Merkin, M., Mialkovski, V., Michel, J., Miftakhov, N., Mik, L., Mikhailov, K., Mikhaylov, V., Milanović, B., Militsija, V., Miskowiec, D., Momot, I., Morhardt, T., Morozov, S., Müller, W. F. J., Müntz, C., Mukherjee, S., Muńoz Castillo, C. E., Murin, Y., Najman, R., Nandi, C., Nandy, E., Naumann, L., Nayak, T., Nedosekin, A., Negi, V. S., Niebur, W., Nikulin, V., Normanov, D., Oancea, A., Oh, K., Onishchuk, Y., Ososkov, G., Otfinowski, P., Ovcharenko, E., Pal, S., Panasenko, I., Panda, N. R., Parzhitskiy, S., Patel, V., Pauly, C., Penschuck, M., Peshekhonov, D., Peshekhonov, V., Petráček, V., Petri, M., Petriş, M., Petrovici, A., Petrovici, M., Petrovskiy, A., Petukhov, O., Pfeifer, D., Piasecki, K., Pieper, J., Pietraszko, J., Płaneta, R., Plotnikov, V., Plujko, V., Pluta, J., Pop, A., Pospisil, V., Poźniak, K., Prakash, A., Prasad, S. K., Prokudin, M., Pshenichnov, I., Pugach, M., Pugatch, V., Querchfeld, S., Rabtsun, S., Radulescu, L., Raha, S., Rami, F., Raniwala, R., Raniwala, S., Raportirenko, A., Rautenberg, J., Rauza, J., Ray, R., Razin, S., Reichelt, P., Reinecke, S., Reinefeld, A., Reshetin, A., Ristea, C., Ristea, O., Rodriguez Rodriguez, A., Roether, F., Romaniuk, R., Rost, A., Rostchin, E., Rostovtseva, I., Roy, A., Rożynek, J., Ryabov, Y., Sadovsky, A., Sahoo, R., Sahu, P. K., Sahu, S. K., Saini, J., Samanta, S., Sambyal, S. S., Samsonov, V., Sánchez Rosado, J., Sander, O., Sarangi, S., Satława, T., Sau, S., Saveliev, V., Schatral, S., Schiaua, C., Schintke, F., Schmidt, C. J., Schmidt, H. R., Schmidt, K., Scholten, J., Schweda, K., Seck, F., Seddiki, S., Selyuzhenkov, I., Semennikov, A., Senger, A., Senger, P., Shabanov, A., Shabunov, A., Shao, M., Sheremetiev, A. D., Shi, S., Shumeiko, N., Shumikhin, V., Sibiryak, I., Sikora, B., Simakov, A., Simon, C., Simons, C., Singaraju, R. N., Singh, A. K., Singh, B. K., Singh, C. P., Singhal, V., Singla, M., Sitzmann, P., Siwek-Wilczyńska, K., Skwira-Chalot, I., Som, I., Song, G., Song, J., Sosin, Z., Soyk, D., Staszel, P., Strikhanov, M., Strohauer, S., Stroth, J., Sturm, C., Sultanov, R., Sun, Y., Svirida, D., Svoboda, O., Szabó, A., Szczygieł, R., Talukdar, R., Tang, Z., Tanha, M., Tarasiuk, J., Tarassenkova, O., Târzilă, M.-G., Teklishyn, M., Tischler, T., Tlustý, P., Tölyhi, T., Toia, A., Topil'Skaya, N., Träger, M., Tripathy, S., Tsakov, I., Tsyupa, Y., Turowiecki, A., Tuturas, N. G., Uhlig, F., Usenko, E., Valin, I., Varga, D., Vassiliev, I., Vasylyev, O., Verbitskaya, E., Verhoeven, W., Veshikov, A., Visinka, R., Viyogi, Y. P., Volkov, S., Volochniuk, A., Vorobiev, A., Voronin, A., Vovchenko, V., Vznuzdaev, M., Wang, D., Wang, X.-W., Wang, Y., Weber, M., Wendisch, C., Wessels, J. P., Wiebusch, M., Wiechula, J., Wielanek, D., Wieloch, A., Wilms, A., Winckler, N., Winter, M., Wiśniewski, K., Wolf, G., Won, S., Wu, K.-J., Wüstenfeld, J., Xiang, C., Xu, N., Yang, J., Yang, R., Yin, Z., Yoo, I.-K., Yuldashev, B., Yushmanov, I., Zabołotny, W., Zaitsev, Y., Zamiatin, N. I., Zanevsky, Y., Zhalov, M., Zhang, Y., Zhao, L., Zheng, J., Zheng, S., Zhou, D., Zhou, J., Zhu, X., Zinchenko, A., Zipper, W., Zrelov, M., Zryuev, V., Zumbruch, P., Zyzak, M., Ablyazimov, T., Abuhoza, A., Adak, R. P., Adamczyk, M., Agarwal, K., Aggarwal, M. M., Ahammed, Z., Ahmad, F., Ahmad, N., Ahmad, S., Akindinov, A., Akishin, P., Akishina, E., Akishina, T., Akishina, V., Akram, A., Al-Turany, M., Alekseev, I., Alexandrov, E., Alexandrov, I., Amar-Youcef, S., Anđelić, M., Andreeva, O., Andrei, C., Andronic, A., Anisimov, Y., Appelshäuser, H., Argintaru, D., Atkin, E., Avdeev, S., Averbeck, R., Azmi, M. D., Baban, V., Bach, M., Badura, E., Bähr, S., Balog, T., Balzer, M., Bao, E., Baranova, N., Barczyk, T., Bartoş, D., Bashir, S., Baszczyk, M., Batenkov, O., Baublis, V., Baznat, M., Becker, J., Becker, K.-H., Belogurov, S., Belyakov, D., Bendarouach, J., Berceanu, I., Bercuci, A., Berdnikov, A., Berdnikov, Y., Berendes, R., Berezin, G., Bergmann, C., Bertini, D., Bertini, O., Beşliu, C., Bezshyyko, O., Bhaduri, P. P., Bhasin, A., Bhati, A. K., Bhattacharjee, B., Bhattacharyya, A., Bhattacharyya, T. K., Biswas, S., Blank, T., Blau, D., Blinov, V., Blume, C., Bocharov, Y., Book, J., Breitner, T., Brüning, U., Brzychczyk, J., Bubak, A., Büsching, H., Bus, T., Butuzov, V., Bychkov, A., Byszuk, A., Cai, X., Cálin, M., Cao, P., Caragheorgheopol, G., Carević, I., Cătănescu, V., Chakrabarti, A., Chattopadhyay, S., Chaus, A., Chen, H., Chen, L., Chen, J., Chepurnov, V., Cherif, H., Chernogorov, A., Ciobanu, M. I., Claus, G., Constantin, F., Csanád, M., D'Ascenzo, N., Das, S., Cuveland, J., Debnath, B., Dementiev, D., Deng, W., Deng, C., Deppe, H., Deppner, I., Derenovskaya, O., Deveaux, C. A., Deveaux, M., Dey, K., Dey, M., Dillenseger, P., Dobyrn, V., Doering, D., Dong, S., Dorokhov, A., Dreschmann, M., Drozd, A., Dubey, A. K., Dubnichka, S., Dubnichkova, Z., Dürr, M., Dutka, L., Dželalija, M., Elsha, V. V., Emschermann, D., Engel, H., Eremin, V., Eşanu, T., Eschke, J., Eschweiler, D., Fan, H., Fan, X., Farooq, M., Fateev, O., Feng, S., Figuli, S. P. D., Filozova, I., Finogeev, D., Fischer, P., Flemming, H., Förtsch, J., Frankenfeld, U., Friese, V., Friske, E., Fröhlich, I., Frühauf, J., Gajda, J., Galatyuk, T., Gangopadhyay, G., García Chávez, C., Gebelein, J., Ghosh, P., Ghosh, S. K., Gläßel, S., Goffe, M., Golinka-Bezshyyko, L., Golovatyuk, V., Golovnya, S., Golovtsov, V., Golubeva, M., Golubkov, D., Gómez Ramírez, A., Gorbunov, S., Gorokhov, S., Gottschalk, D., Gryboś, P., Grzeszczuk, A., Guber, F., Gudima, K., Gumiński, M., Gupta, A., Gusakov, Y., Han, D., Hartmann, H., He, S., Hehner, J., Heine, N., Herghelegiu, A., Herrmann, N., Heß, B., Heuser, J. M., Himmi, A., Höhne, C., Holzmann, R., Hu, D., Huang, G., Huang, X., Hutter, D., Ierusalimov, A., Ilgenfritz, E.-M., Irfan, M., Ivanischev, D., Ivanov, M., Ivanov, P., Ivanov, V., Ivashkin, A., Jaaskelainen, K., Jahan, H., Jain, V., Jakovlev, V., Janson, T., Jiang, D., Jipa, A., Kadenko, I., Kähler, P., Kämpfer, B., Kalinin, V., Kallunkathariyil, J., Kampert, K.-H., Kaptur, E., Karabowicz, R., Karavichev, O., Karavicheva, T., Karmanov, D., Karnaukhov, V., Karpechev, E., Kasiński, K., Kasprowicz, G., Kaur, M., Kazantsev, A., Kebschull, U., Kekelidze, G., Khan, M. M., Khan, S. A., Khanzadeev, A., Khasanov, F., Khvorostukhin, A., Kirakosyan, V., Kirejczyk, M., Kiryakov, A., Kiš, M., Kisel, I., Kisel, P., Kiselev, S., Kiss, T., Klaus, P., Kłeczek, R., Klein-Bösing, C., Kleipa, V., Klochkov, V., Kmon, P., Koch, K., Kochenda, L., Koczoń, P., Koenig, W., Kohn, M., Kolb, B. W., Kolosova, A., Komkov, B., Korolev, M., Korolko, I., Kotte, R., Kovalchuk, A., Kowalski, S., Koziel, M., Kozlov, G., Kozlov, V., Kramarenko, V., Kravtsov, P., Krebs, E., Kreidl, C., Kres, I., Kresan, D., Kretschmar, G., Krieger, M., Kryanev, A. V., Kryshen, E., Kuc, M., Kucewicz, W., Kucher, V., Kudin, L., Kugler, A., Kumar, A., Kumar, L., Kunkel, J., Kurepin, A., Kurepin, N., Kurilkin, A., Kurilkin, P., Kushpil, V., Kuznetsov, S., Kyva, V., Ladygin, V., Lara, C., Larionov, P., Laso García, A., Lavrik, E., Lazanu, I., Lebedev, A., Lebedev, S., Lebedeva, E., Lehnert, J., Lehrbach, J., Leifels, Y., Lemke, F., Li, C., Li, Q., Li, X., Li, Y., Lindenstruth, V., Linnik, B., Liu, F., Lobanov, I., Lobanova, E., Löchner, S., Loizeau, P.-A., Lone, S. A., Lucio Martínez, J. A., Luo, X., Lymanets, A., Lyu, P., Maevskaya, A., Mahajan, S., Mahapatra, D. P., Mahmoud, T., Maj, P., Majka, Z., Malakhov, A., Malankin, E., Malkevich, D., Malyatina, O., Malygina, H., Mandal, M. M., Mandal, S., Manko, V., Manz, S., Marin Garcia, A. M., Markert, J., Masciocchi, S., Matulewicz, T., Meder, L., Merkin, M., Mialkovski, V., Michel, J., Miftakhov, N., Mik, L., Mikhailov, K., Mikhaylov, V., Milanović, B., Militsija, V., Miskowiec, D., Momot, I., Morhardt, T., Morozov, S., Müller, W. F. J., Müntz, C., Mukherjee, S., Muńoz Castillo, C. E., Murin, Y., Najman, R., Nandi, C., Nandy, E., Naumann, L., Nayak, T., Nedosekin, A., Negi, V. S., Niebur, W., Nikulin, V., Normanov, D., Oancea, A., Oh, K., Onishchuk, Y., Ososkov, G., Otfinowski, P., Ovcharenko, E., Pal, S., Panasenko, I., Panda, N. R., Parzhitskiy, S., Patel, V., Pauly, C., Penschuck, M., Peshekhonov, D., Peshekhonov, V., Petráček, V., Petri, M., Petriş, M., Petrovici, A., Petrovici, M., Petrovskiy, A., Petukhov, O., Pfeifer, D., Piasecki, K., Pieper, J., Pietraszko, J., Płaneta, R., Plotnikov, V., Plujko, V., Pluta, J., Pop, A., Pospisil, V., Poźniak, K., Prakash, A., Prasad, S. K., Prokudin, M., Pshenichnov, I., Pugach, M., Pugatch, V., Querchfeld, S., Rabtsun, S., Radulescu, L., Raha, S., Rami, F., Raniwala, R., Raniwala, S., Raportirenko, A., Rautenberg, J., Rauza, J., Ray, R., Razin, S., Reichelt, P., Reinecke, S., Reinefeld, A., Reshetin, A., Ristea, C., Ristea, O., Rodriguez Rodriguez, A., Roether, F., Romaniuk, R., Rost, A., Rostchin, E., Rostovtseva, I., Roy, A., Rożynek, J., Ryabov, Y., Sadovsky, A., Sahoo, R., Sahu, P. K., Sahu, S. K., Saini, J., Samanta, S., Sambyal, S. S., Samsonov, V., Sánchez Rosado, J., Sander, O., Sarangi, S., Satława, T., Sau, S., Saveliev, V., Schatral, S., Schiaua, C., Schintke, F., Schmidt, C. J., Schmidt, H. R., Schmidt, K., Scholten, J., Schweda, K., Seck, F., Seddiki, S., Selyuzhenkov, I., Semennikov, A., Senger, A., Senger, P., Shabanov, A., Shabunov, A., Shao, M., Sheremetiev, A. D., Shi, S., Shumeiko, N., Shumikhin, V., Sibiryak, I., Sikora, B., Simakov, A., Simon, C., Simons, C., Singaraju, R. N., Singh, A. K., Singh, B. K., Singh, C. P., Singhal, V., Singla, M., Sitzmann, P., Siwek-Wilczyńska, K., Skwira-Chalot, I., Som, I., Song, G., Song, J., Sosin, Z., Soyk, D., Staszel, P., Strikhanov, M., Strohauer, S., Stroth, J., Sturm, C., Sultanov, R., Sun, Y., Svirida, D., Svoboda, O., Szabó, A., Szczygieł, R., Talukdar, R., Tang, Z., Tanha, M., Tarasiuk, J., Tarassenkova, O., Târzilă, M.-G., Teklishyn, M., Tischler, T., Tlustý, P., Tölyhi, T., Toia, A., Topil'Skaya, N., Träger, M., Tripathy, S., Tsakov, I., Tsyupa, Y., Turowiecki, A., Tuturas, N. G., Uhlig, F., Usenko, E., Valin, I., Varga, D., Vassiliev, I., Vasylyev, O., Verbitskaya, E., Verhoeven, W., Veshikov, A., Visinka, R., Viyogi, Y. P., Volkov, S., Volochniuk, A., Vorobiev, A., Voronin, A., Vovchenko, V., Vznuzdaev, M., Wang, D., Wang, X.-W., Wang, Y., Weber, M., Wendisch, C., Wessels, J. P., Wiebusch, M., Wiechula, J., Wielanek, D., Wieloch, A., Wilms, A., Winckler, N., Winter, M., Wiśniewski, K., Wolf, G., Won, S., Wu, K.-J., Wüstenfeld, J., Xiang, C., Xu, N., Yang, J., Yang, R., Yin, Z., Yoo, I.-K., Yuldashev, B., Yushmanov, I., Zabołotny, W., Zaitsev, Y., Zamiatin, N. I., Zanevsky, Y., Zhalov, M., Zhang, Y., Zhao, L., Zheng, J., Zheng, S., Zhou, D., Zhou, J., Zhu, X., Zinchenko, A., Zipper, W., Zrelov, M., Zryuev, V., Zumbruch, P., and Zyzak, M.

Abstract

Substantial experimental and theoretical efforts worldwide are devoted to explore the phase diagram of strongly interacting matter. At LHC and top RHIC energies, QCD matter is studied at very high temperatures and nearly vanishing net-baryon densities. There is evidence that a Quark-Gluon-Plasma (QGP) was created at experiments at RHIC and LHC. The transition from the QGP back to the hadron gas is found to be a smooth cross over. For larger net-baryon densities and lower temperatures, it is expected that the QCD phase diagram exhibits a rich structure, such as a first-order phase transition between hadronic and partonic matter which terminates in a critical point, or exotic phases like quarkyonic matter. The discovery of these landmarks would be a breakthrough in our understanding of the strong interaction and is therefore in the focus of various high-energy heavy-ion research programs. The Compressed Baryonic Matter (CBM) experiment at FAIR will play a unique role in the exploration of the QCD phase diagram in the region of high net-baryon densities, because it is designed to run at unprecedented interaction rates. High-rate operation is the key prerequisite for high-precision measurements of multi-differential observables and of rare diagnostic probes which are sensitive to the dense phase of the nuclear fireball. The goal of the CBM experiment at SIS100 (sqrt(s_NN) = 2.7 - 4.9 GeV) is to discover fundamental properties of QCD matter: the phase structure at large baryon-chemical potentials (mu_B > 500 MeV), effects of chiral symmetry, and the equation-of-state at high density as it is expected to occur in the core of neutron stars. In this article, we review the motivation for and the physics programme of CBM, including activities before the start of data taking in 2022, in the context of the worldwide efforts to explore high-density QCD matter.

Published

2016

26. Commissioning of the PRIOR proton microscope

Author

Varentsov, D., primary, Antonov, O., additional, Bakhmutova, A., additional, Barnes, C. W., additional, Bogdanov, A., additional, Danly, C. R., additional, Efimov, S., additional, Endres, M., additional, Fertman, A., additional, Golubev, A. A., additional, Hoffmann, D. H. H., additional, Ionita, B., additional, Kantsyrev, A., additional, Krasik, Ya. E., additional, Lang, P. M., additional, Lomonosov, I., additional, Mariam, F. G., additional, Markov, N., additional, Merrill, F. E., additional, Mintsev, V. B., additional, Nikolaev, D., additional, Panyushkin, V., additional, Rodionova, M., additional, Schanz, M., additional, Schoenberg, K., additional, Semennikov, A., additional, Shestov, L., additional, Skachkov, V. S., additional, Turtikov, V., additional, Udrea, S., additional, Vasylyev, O., additional, Weyrich, K., additional, Wilde, C., additional, and Zubareva, A., additional

Published

2016

27. Fractal analysis of surface topography of solid oxide fuel cell materials

Author

Suchaneck, G., primary, Ponomareva, A.A., additional, Brychevskyi, M., additional, Brodnikovskyi, I., additional, Vasylyev, O., additional, and Gerlach, G., additional

Published

2012

28. On nucleation and growth mechanisms of EBPVD zirconia films on porous NiO-ZrO2 substrate

Author

Vasylyev, O., primary, Brychevskyi, M., additional, Brodnikovskyi, I., additional, Dubykivskyi, L., additional, Andrzejczuk, M., additional, Spychalski, M., additional, Lewandowska, M., additional, Kurzydlowski, K., additional, Steinberger-Wilckens, R., additional, Mertens, J., additional, and Malzbender, J., additional

Published

2012

29. On the dependence of ionic conductivity of ScSZ electrolytes on temperature of their sintering

Author

Kyrpa, O., primary, Vasylyev, O., additional, Brychevs'kyi, M., additional, Pryshchepa, E., additional, and Smirnova, A., additional

Published

2012

30. Modeling design and analysis of multi-layer solid oxide fuel cells

Author

Hasanov, R., primary, Smirnova, A., additional, Gulgazli, A., additional, Kazimov, M., additional, Volkov, A., additional, Quliyeva, V., additional, Vasylyev, O., additional, and Sadykov, V., additional

Published

2011

31. Structure and Mechanical Properties of In-Situ Discontinuously Reinforced Composites of Ti-TiB-System

Author

Miracle, D.B., primary, Firstov, Sergiy A., additional, Kulak, L., additional, Kuzmenko, M., additional, and Vasylyev, O., additional

Published

2003

32. Structural peculiarities and properties of (La,Sr)(Mn,Me)O-3 (Me=Cu,Cr)

Author

Oleg V'yunov, Belous, Ag, Yanchevskii, Oz, Durilin, Da, Tovstolytkin, Ai, Golub, Vo, Podyalovsky, Dy, Sammes, N., Smirnova, A., and Vasylyev, O.

33. Scandia-stabilized zirconia: Effect of dopants on surface/grain boundary segregation and transport properties

Author

Smirnova, A., Sadykov, V., Muzykantov, V., Mezentseva, N., Ivanov, V., Zaikovskii, V., Arcady Ishchenko, Sommes, N., Vasylyev, O., Kilner, J., Irvine, J., Vereschak, V., Kosacki, I., Uvarov, N., and Zyryanov, V.

34. Eifect of obtalning conditions on the structure and properties of Ti-3,6 Si alloy

Author

Brodnikovskui, D. M., Okun, I. Y., Tkachenho, S. V., Mykola Kuz’menko, Vasylyev, O. D., and Firstov, S. O.

35. Design of anodes for IT SOFC: Effect of complex oxide promoters and Pd on activity and stability in methane steam reforming of Ni/YSZ (ScSZ) cermets

Author

Sadykov, V. A., Mezentseva, N. V., Bunina, R. V., Alikina, G. M., Lukashevich, A. I., Rogov, V. A., Moroz, E. M., Zaikovskii, V. I., Ishchenko, A., Bobrenok, O. F., Smirnova, A., John Irvine, and Vasylyev, O.

36. Methane oxidative conversion over the composites of Y- and Sc-stabilized zirconia based

Author

Shashkova, T. K., Kantserova, M. R., Valerii Chedryk, Vasylyev, O. D., and Orlyk, S. N.

37. Experimental and Theoretical Study of Metal-Hydride Reactors

Author

M. Demiralp, T. N. Veziroglu, Yuksel Kaplan, Sammes, N, Smirnova, A, Vasylyev, O, 0-Belirlenecek, and Nigde Univ, Dept Mech Engn, TR-51100 Nigde, Turkey

Subjects

Materials science, Hydrogen, Hydride, Experimental data, chemistry.chemical_element, Charge (physics), Mechanics, hydrogen storage, Hydrogen storage, chemistry, Scientific method, Mass transfer, hydriding time, Constant (mathematics), mathematical model, heat and mass transfer

Abstract

NATO Advanced Research Workshop on Fuel Cell Technologies -- JUN 06-10, 2004 -- Kiev, UKRAINE, WOS: 000235157200022, Hydrogen absorption in LaNi5-H-2 reactor is experimentally and theoretically investigated. Two different reactors were designed and hydrogen gas was charged at constant temperature at constant pressure. Temperature changes in the tanks during the hydrogen charge were measured at several locations and readings of the data were continued until the temperature has stabilized. In the theoretical program, a two dimensional mathematical model, which considers complex heat and mass transfer during this process is developed and numerically solved. The numerical results are compared with the measured data to validate the mathematical model. A reasonable agreement between the numerical results and experimental data is obtained., NATO, European Off Aerosp Res & Dev, N Carolina A & T State Univ, Ctr Adv Mat & Smart Structures, Connecticut Global Fuel Cell Ctr, Univ Connecticut, Frantcevych Inst Problem Mat Sci, Zirconia Ukraine Ltd

Published

2006

38. A two phase model for electrochemical systems

Author

K. Aldas, Mahmut D. Mat, T.N. Veziroğlu, Sammes, N, Smirnova, A, Vasylyev, O, Nigde Univ, Dept Mech Engn, TR-51100 Higde, Turkey, and 0-Belirlenecek

Subjects

Electrolysis of water, Chemistry, Analytical chemistry, Allowance (engineering), Mechanics, Electrochemistry, water electrolysis, Electrochemical cell, Momentum, two-phase flow, Distribution (mathematics), Phase (matter), Two-phase flow, current distribution

Abstract

NATO Advanced Research Workshop on Fuel Cell Technologies -- JUN 06-10, 2004 -- Kiev, UKRAINE, WOS: 000235157200030, Two phase flow is encountered in many electrochemical systems and play vital role on system efficiency, species transport, velocity distribution etc. A two phase flow model which accounts specific nature of liquid and gaseous phase is developed. The model applied to water electrolysis in an electrochemical cell. Transport equations are solved numerically for both phases with allowance for inter - phase mass and momentum Exchange. Liquid and gaseous phase distributions velocities, current density distribution are calculated under various working conditions. It is found that gas layer accumulation on the electrode surface decreases the active reaction area and adversely affects the reaction rate., NATO, European Off Aerosp Res & Dev, N Carolina A & T State Univ, Ctr Adv Mat & Smart Structures, Connecticut Global Fuel Cell Ctr, Univ Connecticut, Frantcevych Inst Problem Mat Sci, Zirconia Ukraine Ltd

Published

2005

39. Influence of Treatment Temperature on Microstructure and Properties of YSZ-NiO Anode Materials.

Author

Podhurska V, Vasyliv B, Ostash O, Brodnikovskyi Y, and Vasylyev O

Abstract

The cyclic treatment technique (redox cycling) comprising stages of material exposition in reducing and oxidizing high-temperature environments and intermediate degassing between these stages has been developed to improve the structural integrity of YSZ-NiO ceramic anode substrates for solid oxide fuel cells. A series of specimens were singly reduced in a hydrogenous environment (the Ar-5 vol% Н2 mixture or hydrogen of 99.99 vol% H2 purity) under the pressure of 0.15 MPa or subjected to redox cycling at 600 or 800 °C. The influence of redox cycling at the treatment temperatures of 600 and 800 °C on the structure, strength and electrical conductivity of the material has been analysed. Using the treatment temperature 600 °C, a structure providing improved physical and mechanical properties of the material was formed. However, at the treatment temperature 800 °C, an anode structure with an array of microcracks was formed that significantly reduced the strength and electrical conductivity of the material.

Published

2016

40. Characterization of Sc₂O₃&CeO₂-stabilized ZrO₂ powders via co-precipitation or hydrothermal synthesis.

Author

Grzonka J, Vereshchak V, Shevchenko O, Vasylyev O, and Kurzydłowski KJ

Abstract

As the presence of Sc₂O₃ and CeO₂ is known to largely enhance the ionic conductivity in the temperature range of 600-800°C, compared with the conventional yttria-stabilized ZrO₂, Sc₂O₃&CeO₂-stabilized ZrO₂ provide its applicability as electrolytes in solid oxide fuel cells. The current study introduces the methodology to synthesize Sc₂O₃&CeO₂-stabilized ZrO₂ powders by using co-precipitation technique or high-temperature hydrothermal reaction, and further describes the structural characterization of the zirconia powders synthesized by the above-mentioned two methods. The co-precipitation technique was found to allow obtaining powders of cubic phase, whereas high-temperature hydrothermal synthesis results in the presence of a monoclinic phase as well. The scanning transmission electron microscope observations also confirm that the size of the synthesized ZrO₂ powders in this study is found to be much smaller than that of commercially available powders.

Published

2013

41. [Effect of nicotinic acid and prozerin on choline metabolism].

Author

Vasylyev OM and Kucherenko ME

Subjects

Animals, Brain drug effects, Brain metabolism, Liver drug effects, Liver metabolism, Muscles drug effects, Muscles metabolism, Organ Specificity, Phosphorylcholine metabolism, Rats, Choline metabolism, Neostigmine pharmacology, Nicotinic Acids pharmacology

Abstract

The content and specific activity of labelled methyl groups of choline and phosphorylcholine in the brain, liver and skeletal muscles of rats was studied as affected by nicotinic acid and prozerin, injected subcutaneously 4h before decapitation. It was found that under the effect of prozerin the specific activity of choline lowers only in the muscles and nicotinic acid evokes its decrease in the liver and muscles. The specific activity of phosphorylcholine lowers in the brain and liver with introduction of prozerin and nicotinic acid. The intensity of phosphorylcholine phosphate renewal increases in the liver and skeletal muscles after introduction of both prozerin and nicotinic acid. The activity of choline dehydrogenase in the liver homogenates lowers only with injection of nicotinic acid.

Published

1975