1,523 research outputs found
Nikolay Kirsanov in the System of Characters in the Novel "Fathers and Sons" by Ivan Turgenev
В статье рассматривается образ Николая Кирсанова и его место в романе Ивана Тургенева "Отцы и дети".The aim of the article is to study the character of Nikolay Kirsanov and its role in the novel "Fathers and Sons"
Indicators of psychological adaptation of students of creative specialties at the final stage of studying
Кирсанов В.М., кандидат психологических
наук, доцент кафедры психолого-педагогических дисциплин, Челябинский государственный педагогический университет (Челябинск).
Kirsanov V.M., candidate of psychological
sciences, associate professor of psychological-pedagogical
disciplines of the Chelyabinsk State Pedagogical
University (Chelyabinsk).Представлен анализ психологических особенностей студентов, обучающихся на факультете декоративно-прикладного творчества, включающий
оценку личностных характеристик (активность, направленность, мотивация,
саморегуляция, ценностные ориентации), взаимосвязи типа личности и сферы
профессиональной деятельности. The article address analysis of psychological peculiarities
of students, studying at faculty of arts and
crafts creativity, including assessment of personal
characteristics (asthenia, focus, motivation, self-adjustment,
system of values), interrelation of the personality
type and the sphere of professional activities
Thermodynamics and coherence in quantum systems
Quantum thermodynamics, an emerging interdisciplinary field, bridges the gap between quantum mechanics and classical thermodynamics. This thesis delves into quantum thermodynamic phenomena and their real-world applications across multiple physical domains, placing a particular emphasis on quantum coherence. The work includes theoretical and experimental studies of thermoelectric and heat currents in hybrid superconducting structures, originating from coherent Cooper pair splitting and elastic cotunneling effects. Furthermore, the work examines entropy dynamics in correlated qubit systems, utilizing the mathematical formalism and results of quantum information theory. Finally, a global-distance quantum key distribution scheme is proposed. The solution leverages coherent optical states and is based on the quantum foundations of the Second Law of Thermodynamics. The work demonstrates the practical impact of the addressed thermodynamic phenomena, laying a foundation for future applications
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Investigating 2D semiconductor contacts for Cooper-pair light-emitting diode applications
Future quantum technologies will require high-efficiency, on-demand sources of entangled photons. A possible route to building such light sources employs two-dimensional (2D) semiconductors interfaced with a source of Cooper pairs. To investigate the possibility of such devices, we are testing methods to make high transparency n-type contacts, p-type contacts, and superconducting contacts to 2D semiconductors. For example, following the pioneering work of Liu et al., we are testing transferred metal contacts [1]. By placing the preformed metal on top of the 2D semiconductor, a pristine interface can be achieved, in contrast to evaporated metal contacts that typically generate defects at the interface. We will present preliminary results from our experiments.
[1] Y. Liu, J. Guo, E. Zhu, L. Liao, S.-J. Lee, M. Ding, I. Shakir, V. Gambin, Y. Huang & X. Duan, “Approaching the Schottky–Mott limit in van der Waals metal–semiconductor junctions”, Nature 557, 696-700 (2018)
Search for new resonances decaying via WZ to leptons in proton-proton collisions at root s=8 TeV
Citation: Khachatryan, V., Sirunyan, A. M., Tumasyan, A., Adam, W., Bergauer, T., Dragicevic, M., . . . Collabordtion, C. M. S. (2015). Search for new resonances decaying via WZ to leptons in proton-proton collisions at root s=8 TeV. Physics Letters B, 740, 83-104. doi:10.1016/j.physletb.2014.11.026A search is performed in proton-proton collisions at root s = 8 TeV for exotic particles decaying via WZ to fully leptonic final states with electrons, muons, and neutrinos. The data set corresponds to an integrated luminosity of 19.5 fb(-1). No significant excess is observed above the expected standard model background. Upper bounds at 95% confidence level are set on the production cross section of a W boson as predicted by an extended gauge model, and on the W'WZ coupling. The expected and observed mass limits for a W' boson, as predicted by this model, are 1.55 and 1.47 TeV, respectively. Stringent limits are also set in the context of low-scale technicolor models under a range of assumptions for the model parameters. (C) 2014 The Authors. Published by Elsevier B.V.Additional Authors: Kiesenhofer, W.;Knunz, V.;Krammer, M.;Kratschmer, I.;Liko, D.;Mikulec, I.;Rabady, D.;Rahbaran, B.;Rohringer, H.;Schofbeck, R.;Strauss, J.;Taurok, A.;Treberer-Treberspurg, W.;Waltenberger, W.;Wulz, C. E.;Mossolov, V.;Shumeiko, N.;Gonzalez, J. S.;Alderweireldt, S.;Bansal, M.;Bansal, S.;Cornelis, T.;De Wolf, E. A.;Janssen, X.;Knutsson, A.;Luyckx, S.;Ochesanu, S.;Roland, B.;Rougny, R.;De Klundert, M. V.;Van Haevermaet, H.;Van Mechelen, P.;Remortel, N.;Van Spilbeeck, A.;Blekman, F.;Blyweert, S.;D'Hondt, J.;Daci, N.;Heracleous, N.;Keaveney, J.;Kim, T. J.;Lowette, S.;Maes, M.;Olbrechts, A.;Python, Q.;Strom, D.;Tavernier, S.;Van Doninck, W.;Van Mulders, P.;Van Onsem, G. P.;Villella, I.;Caillol, C.;Clerbaux, B.;De Lentdecker, G.;Dobur, D.;Favart, L.;Gay, A. P. R.;Grebenyuk, A.;Leonard, A.;Mohammadi, A.;Pernie, L.;Reis, T.;Seva, T.;Thomas, L.;Velde, C. V.;Vanlaer, P.;Wang, J.;Adler, V.;Beernaert, K.;Benucci, L.;Cimmino, A.;Costantini, S.;Crucy, S.;Dildick, S.;Fagot, A.;Garcia, G.;McCartin, J.;Rios, A. A. O.;Ryckbosch, D.;Diblen, S. S.;Sigamani, M.;Strobbe, N.;Thyssen, F.;Tytgat, M.;Yazgan, E.;Zaganidis, N.;Basegmez, S.;Beluffi, C.;Bruno, G.;Castello, R.;Caudron, A.;Ceard, L.;Da Silveira, G. G.;Delaere, C.;Du Pree, T.;Favart, D.;Forthomme, L.;Giammanco, A.;Hollar, J.;Jez, P.;Komm, M.;Lemaitre, V.;Liao, J.;Nuttens, C.;Pagano, D.;Perrini, L.;Pin, A.;Piotrzkowski, K.;Popov, A.;Quertenmont, L.;Selvaggi, M.;Marono, M. V.;Garcia, J. M. V.;Beliy, N.;Caebergs, T.;Daubie, E.;Hammad, G. H.;Alda, W. L.;Alves, G. A.;Martins, M. C.;Martins, T. D. R.;Pol, M. E.;Carvalho, W.;Chinellato, J.;Custodio, A.;DaCosta, E. M.;Damiao, D. D. J.;Martins, C. D. O.;De Souza, S. F.;Malbouisson, H.;Figueiredo, D. M.;Mundim, L.;Nogima, H.;Da Silva, W. L. P.;Santaolalla, J.;Santoro, A.;Sznajder, A.;Manganote, E. J. T.;Pereira, A. V.;Bernardes, C. A.;Dias, F. A.;Tomei, Trfp;Gregores, E. M.;Mercadante, P. G.;Novaes, S. F.;Padula, S. S.;Aleksandrov, A.;Genchev, V.;Iaydjiev, P.;Marinov, A.;Piperov, S.;Rodozov, M.;Sultanov, G.;Vutova, M.;Dimitrov, A.;Glushkov, I.;Hadjiiska, R.;Kozhuharov, V.;Litov, L.;Pavlov, B.;Petkov, P.;Bian, J. G.;Chen, G. M.;Chen, H. S.;Chen, M.;Du, R.;Jiang, C. H.;Liang, D.;Liang, S.;Plestina, R.;Tao, J.;Wang, X.;Wang, Z.;Asawatangtrakuldee, C.;Ban, Y.;Guo, Y.;Li, Q.;Li, W.;Liu, S.;Mao, Y.;Qian, S. J.;Wang, D.;Zhang, L.;Zou, W.;Avila, C.;Sierra, L. F. C.;Florez, C.;Gomez, J. P.;Moreno, B. G.;Sanabria, J. C.;Godinovic, N.;Lelas, D.;Polic, D.;Puljak, I.;Antunovic, Z.;Kovac, M.;Brigljevic, V.;Kadija, K.;Luetic, J.;Mekterovic, D.;Sudic, L.;Attikis, A.;Mavromanolakis, G.;Mousa, J.;Nicolaou, C.;Ptochos, F.;Razis, P. A.;Bodlak, M.;Finger, M.;Finger, M.;Assran, Y.;Elgammal, S.;Mahmoud, M. A.;Radi, A.;Kadastik, M.;Murumaa, M.;Raidal, M.;Tiko, A.;Eerola, P.;Fedi, G.;Voutilainen, M.;Harkonen, J.;Karimaki, V.;Kinnunen, R.;Kortelainen, M. J.;Lampen, T.;Lassila-Perini, K.;Lehti, S.;Linden, T.;Luukka, P.;Maenpaa, T.;Peltola, T.;Tuominen, E.;Tuominiemi, J.;Tuovinen, E.;Wendland, L.;Tuuva, T.;Besancon, M.;Couderc, F.;Dejardin, M.;Denegri, D.;Fabbro, B.;Faure, J. L.;Favaro, C.;Ferri, F.;Ganjour, S.;Givernaud, A.;Gras, P.;de Monchenault, G. H.;Jarry, P.;Locci, E.;Malcles, J.;Rander, J.;Rosowsky, A.;Titov, M.;Baffioni, S.;Beaudette, F.;Busson, P.;Charlot, C.;Dahms, T.;Dalchenko, M.;Dobrzynski, L.;Filipovic, N.;Florent, A.;de Cassagnac, R. G.;Mastrolorenzo, L.;Mine, P.;Mironov, C.;Naranjo, I. N.;Nguyen, M.;Ochando, C.;Paganini, P.;Salerno, R.;Sauvan, J. B.;Sirois, Y.;Veelken, C.;Yilmaz, Y.;Zabi, A.;Agram, J. L.;Andrea, J.;Aubin, A.;Bloch, D.;Brom, J.;Chabert, E. C.;Collard, C.;Conte, E.;Fontaine, J.;Gele, D.;Goerlach, U.;Goetzmann, C.;Le Bihan, A.;Van Hove, P.;Gadrat, S.;Beauceron, S.;Beaupere, N.;Boudoul, G.;Brochet, S.;Montoya, C. A. C.;Chasserat, J.;Chierici, R.;Contardo, D.;Depasse, P.;El Mamouni, H.;Fan, J.;Fay, J.;Gascon, S.;Gouzevitch, M.;Ille, B.;Kurca, T.;Lethuillier, M.;Mirabito, L.;Perries, S.;Alvarez, J. D. R.;Sabes, D.;Sgandurra, L.;Sordini, V.;Donckt, M. V.;Verdier, P.;Viret, S.;Xiao, H.;Tsamalaidze, Z.;Autermann, C.;Beranek, S.;Bontenackels, M.;Edelhoff, M.;Feld, L.;Hindrichs, O.;Klein, K.;Ostapchuk, A.;Perieanu, A.;Raupach, F.;Sammet, J.;Schael, S.;Weber, H.;Wittmer, B.;Zhukov, V.;Ata, M.;Dietz-Laursonn, E.;Duchardt, D.;Erdmann, M.;Fischer, R.;Guth, A.;Hebbeker, T.;Heidemann, C.;Hoepfner, K.;Klingebiel, D.;Knutzen, S.;Kreuzer, P.;Merschmeyer, M.;Meyer, A.;Olschewski, M.;Padeken, K.;Papacz, P.;Reithler, H.;Schmitz, S. A.;Sonnenschein, L.;Teyssier, D.;Thuer, S.;Weber, M.;Cherepanov, V.;Erdogan, Y.;Flugge, G.;Geenen, H.;Geisler, M.;Ahmad, W. H.;Hoehle, F.;Kargoll, B.;Kress, T.;Kuessel, Y.;Lingemann, J.;Nowack, A.;Nugent, I. M.;Perchalla, L.;Pooth, O.;Stahl, A.;Asin, I.;Bartosik, N.;Behr, J.;Behrenhoff, W.;Behrens, U.;Bell, A. J.;Bergholz, M.;Bethani, A.;Borras, K.;Burgmeier, A.;Cakir, A.;Calligaris, L.;Campbell, A.;Choudhury, S.;Costanza, F.;Pardos, C. D.;Dooling, S.;Dorland, T.;Eckerlin, G.;Eckstein, D.;Eichhorn, T.;Flucke, G.;Garcia, J. G.;Geiser, A.;Gunnellini, P.;Hauk, J.;Hellwig, G.;Hempel, M.;Horton, D.;Jung, H.;Kalogeropoulos, A.;Kasemann, M.;Katsas, P.;Kieseler, J.;Kleinwort, C.;Krucker, D.;Lange, W.;Leonard, J.;Lipka, K.;Lobanov, A.;Lohmann, W.;Lutz, B.;Mankel, R.;Marfin, I.;Melzer-Pellmann, I. A.;Meyer, A. B.;Mnich, J.;Mussgiller, A.;Naumann-Emme, S.;Nayak, A.;Novgorodova, O.;Nowak, F.;Ntomari, E.;Perrey, H.;Pitzl, D.;Placakyte, R.;Raspereza, A.;Cipriano, P. M. R.;Ron, E.;Sahin, M. O.;Salfeld-Nebgen, J.;Saxena, P.;Schmidt, R.;Schoerner-Sadenius, T.;Schroeder, M.;Spannagel, S.;Trevino, Adrv;Walsh, R.;Wissing, C.;Martin, M. A.;Blobel, V.;Vignali, M. C.;Erfle, J.;Garutti, E.;Goebel, K.;Goerner, M.;Haller, J.;Hoffmann, M.;Hoing, R. S.;Kirschenmann, H.;Klanner, R.;Kogler, R.;Lange, J.;Lapsien, T.;Lenz, T.;Marchesini, I.;Ott, J.;Peiffer, T.;Pietsch, N.;Rathjens, D.;Sander, C.;Schettler, H.;Schleper, P.;Schlieckau, E.;Schmidt, A.;Seidel, M.;Sibille, J.;Sola, V.;Stadie, H.;Steinbrueck, G.;Troendle, D.;Usai, E.;Vanelderen, L.;Barth, C.;Baus, C.;Berger, J.;Boser, C.;Butz, E.;Chwalek, T.;De Boer, W.;Descroix, A.;Dierlamm, A.;Feindt, M.;Frensch, F.;Giffels, M.;Hartmann, F.;Hauth, T.;Husemann, U.;Katkov, I.;Kornmayer, A.;Kuznetsova, E.;Pardo, P. L.;Mozer, M. U.;Muller, T.;Nurnberg, A.;Quast, G.;Rabbertz, K.;Ratnikov, F.;Rocker, S.;Simonis, H. J.;Stober, F. M.;Ulrich, R.;Wagner-Kuhr, J.;Wayand, S.;Weiler, T.;Wolf, R.;Anagnostou, G.;Daskalakis, G.;Geralis, T.;Giakoumopoulou, V. A.;Kyriakis, A.;Loukas, D.;Markou, A.;Markou, C.;Psallidas, A.;Topsis-Giotis, I.;Panagiotou, A.;Saoulidou, N.;Stiliaris, E.;Aslanoglou, X.;Evangelou, I.;Flouris, G.;Foudas, C.;Kokkas, P.;Manthos, N.;Papadopoulos, I.;Paradas, E.;Bencze, G.;Hajdu, C.;Hidas, P.;Horvath, D.;Sikler, F.;Veszpremi, V.;Vesztergombi, G.;Zsigmond, A. J.;Beni, N.;Czellar, S.;Karancsi, J.;Molnar, J.;Palinkas, J.;Szillasi, Z.;Raics, P.;Trocsanyi, Z. L.;Ujvari, B.;Swain, S. K.;Beri, S. B.;Bhatnagar, V.;Dhingra, N.;Gupta, R.;Bhawandeep, U.;Kalsi, A. K.;Kaur, M.;Mittal, M.;Nishu, N.;Singh, J. B.;Kumar, A.;Kumar, A.;Ahuja, S.;Bhardwaj, A.;Choudhary, B. C.;Kumar, A.;Malhotra, S.;Naimuddin, M.;Ranjan, K.;Sharma, V.;Banerjee, S.;Bhattacharya, S.;Chatterjee, K.;Dutta, S.;Gomber, B.;Jain, S.;Jain, S.;Khurana, R.;Modak, A.;Mukherjee, S.;Roy, D.;Sarkar, S.;Sharan, M.;Abdulsalam, A.;Dutta, D.;Kailas, S.;Kumar, V.;Mohanty, A. K.;Pant, L. M.;Shukla, P.;Topkar, A.;Aziz, T.;Banerjee, S.;Bhowmik, S.;Chatterjee, R. M.;Dewanjee, R. K.;Dugad, S.;Ganguly, S.;Ghosh, S.;Guchait, M.;Gurtu, A.;Kole, G.;Kumar, S.;Maity, M.;Majumder, G.;Mazumdar, K.;Mohanty, G. B.;Parida, B.;Sudhakar, K.;Wickramage, N.;Bakhshiansohi, H.;Behnamian, H.;Etesami, S. M.;Fahim, A.;Goldouzian, R.;Jafari, A.;Khakzad, M.;MohammadiNajafabadi, M.;Naseri, M.;Mehdiabadi, S. P.;Safarzadeh, B.;Zeinali, M.;Felcini, M.;Grunewald, M.;Abbrescia, M.;Barbone, L.;Calabria, C.;Chhibra, S. S.;Colaleoa, A.;Creanz, D.;De Filippis, N.;De Palma, M.;Fiore, L.;Iaselli, G.;Maggi, G.;Maggi, M.;My, S.;Nuzzo, S.;Pompili, A.;Pugliese, G.;Radogna, R.;Selvaggi, G.;Silvestris, L.;Singh, G.;Venditti, R.;Verwilligen, P.;Zito, G.;Abbiendi, G.;Benvenuti, A. C.;Bonacorsi, D.;Braibant-Giacomelli, S.;Brigliadori, L.;Campanini, R.;Capiluppi, P.;Castro, A.;Cavallo, F. R.;Codispoti, G.;Cuffiani, M.;Dallavalle, G. M.;Fabbri, F.;Fanfani, A.;Fasanella, D.;Giacomelli, P.;Grandi, C.;Guiducci, L.;Marcellini, S.;Masetti, G.;Montanari, A.;Navarria, F. L.;Perrotta, A.;Primavera, F.;Rossi, A. M.;Rovelli, T.;Siroli, G. P.;Tosi, N.;Travaglini, R.;Albergo, S.;Cappello, G.;Chiorboli, M.;Costa, S.;Giordano, F.;Potenza, R.;Tricomi, A.;Tuve, C.;Barbagli, G.;Ciulli, V.;Civinini, C.;D'Alessandro, R.;Focardi, E.;Gallo, E.;Gonzi, S.;Gori, V.;Lenzi, P.;Meschini, M.;Paoletti, S.;Sguazzoni, G.;Tropiano, A.;Benussi, L.;Bianco, S.;Fabbri, F.;Piccolo, D.;Ferro, F.;Lo Vetere, M.;Robutti, E.;Tosi, S.;Dinardo, M. E.;Fiorendi, S.;Gennai, S.;Gerosa, R.;Ghezzi, A.;Govoni, P.;Lucchini, M. T.;Malvezzi, S.;Manzoni, R. A.;Martelli, A.;Marzocchi, B.;Menasce, D.;Moroni, L.;Paganoni, M.;Pedrini, D.;Ragazzi, S.;Redaelli, N.;de Fatis, T. T.;Buontempo, S.;Cavallo, N.;Di Guida, S.;Fabozzi, F.;Iorio, A.;Lista, L.;Meola, S.;Merola, M.;Paolucci, P.;Azzi, P.;Biasotto, M.;Bisello, D.;Branca, A.;Carlin, R.;Checchia, P.;Dall'Osso, M.;Dorigo, T.;Dosselli, U.;Fanzago, F.;Galanti, M.;Gasparini, F.;Gasparini, U.;Gozzelino, A.;Kanishchev, K.;Lacaprara, S.;Margoni, M.;Meneguzzo, A. T.;Pazzini, J.;Pozzobon, N.;Ronchese, P.;Simonetto, F.;Torassa, E.;Tosi, M.;Zotto, P.;Zucchetta, A.;Zumerle, G.;Gabusi, M.;Ratti, S. P.;Riccardi, C.;Salvini, P.;Vitulo, P.;Biasini, M.;Bilei, G. M.;Ciangottini, D.;Fano, L.;Lariccia, P.;Mantovani, G.;Menichelli, M.;Romeo, F.;Saha, A.;Santocchia, A.;Spiezia, A.;Androsov, K.;Azzurri, P.;Bagliesi, G.;Bernardini, J.;Boccali, T.;Broccolo, G.;Castaldi, R.;Ciocci, M. A.;Dell'Orso, R.;Donato, S.;Fiori, F.;Foa, L.;Giassi, A.;Grippo, M. T.;Ligabue, F.;Lomtadze, T.;Martini, L.;Messineo, A.;Moon, C. S.;Palla, F.;Rizzi, A.;Savoy-Navarro, A.;Serban, A. T.;Spagnolo, P.;Squillacioti, P.;Tenchini, R.;Tonelli, G.;Venturi, A.;Verdini, P. G.;Vernieri, C.;Barone, L.;Cavallari, F.;Del Re, D.;Diemoz, M.;Grassi, M.;Jorda, C.;Longo, E.;Margaroli, F.;Meridiani, P.;Micheli, F.;Nourbakhsh, S.;Organtini, G.;Paramatti, R.;Rahatlou, S.;Rovelli, C.;Santanastasio, F.;Soffi, L.;Traczyk, P.;Amapane, N.;Arcidiacono, R.;Argiro, S.;Arneodo, M.;Bellan, R.;Biino, C.;Cartiglia, N.;Casasso, S.;Costa, M.;Degano, A.;Demaria, N.;Finco, L.;Mariotti, C.;Maselli, S.;Migliore, E.;Monaco, V.;Musich, M.;Obertino, M. M.;Ortona, G.;Pacher, L.;Pastrone, N.;Pelliccioni, M.;Angioni, G. L. P.;Potenza, A.;Romero, A.;Ruspa, M.;Sacchi, R.;Solano, A.;Staiano, A.;Tamponi, U.;Belforte, S.;Candelise, V.;Casarsa, M.;Cossutti, F.;Della Ricca, G.;Gobbo, B.;La Licata, C.;Marone, M.;Montanino, D.;Schizzi, A.;Umer, T.;Zanetti, A.;Chang, S.;Kropivnitskaya, A.;Nam, S. K.;Kim, D. H.;Kim, G. N.;Kim, M. S.;Kong, D. J.;Lee, S.;Oh, Y. D.;Park, H.;Sakharov, A.;Son, D. C.;Kim, J. Y.;Song, S.;Choi, S.;Gyun, D.;Hong, B.;Jo, M.;Kim, H.;Kim, Y.;Lee, B.;Lee, K.;Park, S.;Roh, Y.;Choi, M.;Kim, J. H.;Park, I. C.;Park, S.;Ryu, G.;Ryu, M.;Choi, Y.;Choi, Y.;Goh, J.;Kwon, E.;Lee, J.;Seo, H.;Yu, I.;Juodagalvis, A.;Komaragiri, J. R.;Castilla-Valdez, H.;De La Cruz-Burelo, E.;La Cruz, I. H. D.;Lopez-Fernandez, R.;Sanchez-Hernandez, A.;Moreno, S. C.;Valencia, F. V.;Pedraza, I.;Ibarguen, H. A. S.;Linares, E. C.;Pineda, A. M.;Krofcheck, D.;Butler, P. H.;Reucroft, S.;Ahmad, A.;Ahmad, M.;Hassan, Q.;Hoorani, H. R.;Khalid, S.;Khan, W. A.;Khurshid, T.;Shah, M. A.;Shoaib, M.;Bialkowska, H.;Bluj, M.;Boimska, B.;Frueboes, T.;Gorski, M.;Kazana, M.;Nawrocki, K.;Romanowska-Rybinska, K.;Szleper, M.;Zalewski, P.;Brona, G.;Bunkowski, K.;Cwiok, M.;Dominik, W.;Doroba, K.;Kalinowski, A.;Konecki, M.;Krolikowski, J.;Misiura, M.;Olszewski, M.;Wolszczak, W.;Bargassa, P.;Silva, Cbde;Faccioli, P.;Parracho, P. G. F.;Gallinaro, M.;Nguyen, F.;Antunes, J. R.;Seixas, J.;Varela, J.;Vischia, P.;Gavrilenko, M.;Golutvin, I.;Gorbunov, I.;Kamenev, A.;Karjavin, V.;Konoplyanikov, V.;Lanev, A.;Malakhov, A.;Matveev, V.;Moisenz, P.;Palichik, V.;Perelygin, V.;Savina, M.;Shmatov, S.;Shulha, S.;Skatchkov, N.;Smirnov, V.;Zarubin, A.;Golovtsov, V.;Ivanov, Y.;Kim, V.;Levchenko, P.;Murzin, V.;Oreshkin, V.;Smirnov, I.;Sulimov, V.;Uvarov, L.;Vavilov, S.;Vorobyev, A.;Vorobyev, A.;Andreev, Y.;Dermenev, A.;Gninenko, S.;Golubev, N.;Kirsanov, M.;Krasnikov, N.;Pashenkov, A.;Tlisov, D.;Toropin, A.;Epshteyn, V.;Gavrilov, V.;Lychkovskaya, N.;Popov, V.;Safronov, G.;Semenov, S.;Spiridonov, A.;Stolin, V.;Vlasov, E.;Zhokin, A.;Andreev, V.;Azarkin, M.;Dremin, I.;Kirakosyan, M.;Leonidov, A.;Mesyats, G.;Rusakov, S. V.;Vinogradov, A.;Belyaev, A.;Boos, E.;Bunichev, V.;Dubinin, M.;Dudko, L.;Ershov, A.;Gribushin, A.;Klyukhin, V.;Kodolova, O.;Lokhtin, I.;Obraztsov, S.;Perfilov, M.;Savrin, V.;Azhgirey, I.;Bayshev, I.;Bitioukov, S.;Kachanov, V.;Kalinin, A.;Konstantinov, D.;Krychkine, V.;Petrov, V.;Ryutin, R.;Sobol, A.;Tourtchanovitch, L.;Troshin, S.;Tyurin, N.;Uzunian, A.;Volkov, A.;Adzic, P.;Dordevic, M.;Ekmedzic, M.;Milosevic, J.;Maestre, J. A.;Battilana, C.;Calvo, E.;Cerrada, M.;Llatas, M. C.;Colino, N.;De La Cruz, B.;Peris, A. D.;Vazquez, D. D.;EscalanteDelValle, A.;Bedoya, C. F.;Ramos, J. P. F.;Flix, J.;Fouz, M. C.;Garcia-Abia, P.;Lopez, O. G.;Lopez, S. G.;Hernandez, J. M.;Josa, M. I.;Merino, G.;De Martino, E. N.;Yzquierdo, A. P. C.;Pelayo, J. P.;Olmeda, A. Q.;Redondo, I.;Romero, L.;Soares, M. S.;Albajar, C.;de Troconiz, J. F.;Missiroli, M.;Brun, H.;Cuevas, J.;Menendez, J. F.;Folgueras, S.;Caballero, I. G.;Iglesias, L. L.;Cifuentes, J. A. B.;Cabrillo, I. J.;Calderon, A.;Campderros, J. D.;Fernandez, M.;Gomez, G.;Graziano, A.;Virto, A. L.;Marco, J.;Marco, R.;Rivero, C. M.;Matorras, F.;Sanchez, F. J. M.;Gomez, J. P.;Rodrigo, T.;Rodriguez-Marrero, A. Y.;Ruiz-Jimeno, A.;Scodellaro, L.;Vila, I.;Cortabitarte, R. V.;Abbaneo, D.;Auffray, E.;Auzinger, G.;Bachtis, M.;Baillon, P.;Ball, A. H.;Barney, D.;Benaglia, A.;Bendavid, J.;Benhabib, L.;Benitez, J. F.;Bernet, C.;Bianchi, G.;Bloch, P.;Bocci, A.;Bonato, A.;Bondu, O.;Botta, C.;Breuker, H.;Camporesi, T.;Cerminara, G.;Colafranceschi, S.;D'Alfonso, M.;d'Enterria, D.;Dabrowski, A.;David, A.;De Guio, F.;De Roeck, A.;De Visscher, S.;Dobson, M.;Dupont-Sagorin, N.;Elliott-Peisert, A.;Eugster, J.;Franzoni, G.;Funk, W.;Gigi, D.;Gill, K.;Giordano, D.;Girone, M.;Glege, F.;Guida, R.;Gundacker, S.;Guthoff, M.;Hammer, J.;Hansen, M.;Harris, P.;Hegeman, J.;Innocente, V.;Janot, P.;Kousouris, K.;Krajczar, K.;Lecoq, P.;Lourenco, C.;Magini, N.;Malgeri, L.;Mannelli, M.;Marrouche, J.;Masetti, L.;Meijers, F.;Mersi, S.;Meschi, E.;Moortgat, F.;Morovic, S.;Mulders, M.;Musella, P.;Orsini, L.;Pape, L.;Perez, E.;Perrozzi, L.;Petrilli, A.;Petrucciani, G.;Pfeiffer, A.;Pierini, M.;Pimia, M.;Piparo, D.;Plagge, M.;Racz, A.;Rolandi, G.;Rovere, M.;Sakulin, H.;Schafer, C.;Schwick, C.;Sekmen, S.;Sharma, A.;Siegrist, P.;Silva, P.;Simon, M.;Sphicas, P.;Spiga, D.;Steggemann, J.;Stieger, B.;Stoye, M.;Treille, D.;Tsirou, A.;Veres, G. I.;Vlimant, J. R.;Wardle, N.;Wohri, H. K.;Wollny, H.;Zeuner, W. D.;Bertl, W.;Deiters, K.;Erdmann, W.;Horisberger, R.;Ingram, Q.;Kaestli, H. C.;Konig, S.;Kotlinski, D.;Langenegger, U.;Renker, D.;Rohe, T.;Bachmair, F.;Baeni, L.;Bianchini, L.;Bortignon, P.;Buchmann, M. A.;Casal, B.;Chanon, N.;Deisher, A.;Dissertori, G.;Dittmar, M.;Donega, M.;Duenser, M.;Eller, P.;Grab, C.;Hits, D.;Lustermann, W.;Mangano, B.;Marini, A. C.;del Arbol, P. M. R.;Meister, D.;Mohr, N.;Nageli, C.;Nessi-Tedaldi, F.;Pandolfi, F.;Pauss, F.;Peruzzi, M.;Quittnat, M.;Rebane, L.;Rossini, M.;Starodumov, A.;Takahashi, M.;Theofilatos, K.;Wallny, R.;Weber, H. A.;Amsler, C.;Canelli, M. F.;Chiochia, V.;De Cosa, A.;Hinzmann, A.;Hreus, T.;Kilminster, B.;Mejias, B. M.;Ngadiuba, J.;Robmann, P.;Ronga, F. J.;Snoek, H.;Taroni, S.;Verzetti, M.;Yang, Y.;Cardaci, M.;Chen, K. H.;Ferro, C.;Kuo, C. M.;Lin, W.;Lu, Y. J.;Volpe, R.;Yu, S.;Chang, P.;Chang, Y. H.;Chang, Y. W.;Chao, Y.;Chen, K. F.;Chen, P. H.;Dietz, C.;Grundler, U.;Hou, W. S.;Kao, K. Y.;Lei, Y. J.;Liu, Y. F.;Lu, R. S.;Majumder, D.;Petrakou, E.;Tzeng, Y. M.;Wilken, R.;Asavapibhop, B.;Srimanobhas, N.;Suwonjandee, N.;Adiguzel, A.;Bakirci, M. N.;Cerci, S.;Dozen, C.;Dumanoglu, I.;Eskut, E.;Girgis, S.;Gokbulut, G.;Gurpinar, E.;Hos, I.;Kangal, E.;Topaksu, A. K.;Onengut, G.;Ozdemir, K.;Ozturk, S.;Polatoz, A.;Sogut, K.;Cerci, D.;Tali, B.;Topakli, H.;Vergili, M.;Akin, I.;Bilin, B.;Bilmis, S.;Gamsizkan, H.;Karapinar, G.;Ocalan, K.;Surat, U.;Yalvac, M.;Zeyrek, M.;Gulmez, E.;Isildak, B.;Kaya, M.;Kaya, O.;Bahtiyar, H.;Barlas, E.;Cankocak, K.;Vardarli, F. I.;Yucel, M.;Levchuk, L.;Sorokin, P.;Brooke, J.;Clement, E.;Cussans, D.;Flacher, H.;Frazier, R.;Goldstein, J.;Grimes, M.;Heath, G. P.;Heath, H. F.;Jacob, J.;Kreczko, L.;Lucas, C.;Meng, Z.;Newbold, D. M.;Paramesvaran, S.;Poll, A.;Senkin, S.;Smith, V. J.;Williams, T.;Bell, K.;Belyaev, A.;Brew, C.;Brown, R.;Cockerill, D.;Coughlan, J.;Harder, K.;Harper, S.;Olaiya, E.;Petyt, D.;Shepherd-Themistocleous, C.;Thea, A.;Tomalin, I.;Womersley, W. J.;Worm, S.;Baber, M.;Bainbridge, R.;Buchmuller, O.;Burton, D.;Colling, D.;Cripps, N.;Cutajar, M.;Dauncey, P.;Davies, G.;Della Negra, M.;Dunne, P.;Ferguson, W.;Fulcher, J.;Futyan, D.;Gilbert, A.;Hall, G.;Iles, G.;Jarvis, M.;Karapostoli, G.;Kenzie, M.;Lane, R.;Lucas, R.;Lyons, L.;Magnan, A. M.;Malik, S.;Mathias, B.;Nash, J.;Nikitenko, A.;Pela, J.;Pesaresi, M.;Petridis, K.;Raymond, D.;Rogerson, S.;Rose, A.;Seez, C.;Sharp, P.;Tapper, A.;Acosta, M. V.;Virdee, T.;Cole, J.;Hobson, P. R.;Khan, A.;Kyberd, P.;Leggat, D.;Leslie, D.;Martin, W.;Reid, I.;Symonds, P.;Teodorescu, L.;Turner, M.;Dittmann, J.;Hatakeyama, K.;Kasmi, A.;Liu, H.;Scarborough, T.;Charaf, O.;Cooper, S. I.;Henderson, C.;Rumerio, P.;Avetisyan, A.;Bose, T.;Fantasia, C.;Heister, A.;Lawson, P.;Richardson, C.;Rohlf, J.;Sperka, D.;John, J. S.;Sulak, L.;Alimena, J.;Berry, E.;Bhattacharya, S.;Christopher, G.;Cutts, D.;Demiragli, Z.;Ferapontov, A.;Garabedian, A.;Heintz, U.;Jabeen, S.;Kukartsev, G.;Laird, E.;Landsberg, G.;Luk, M.;Narain, M.;Segala, M.;Sinthuprasith, T.;Speer, T.;Swanson, J.;Breedon, R.;Breto, G.;Sanchez, M. C. D.;Chauhan, S.;Chertok, M.;Conway, J.;Conway, R.;Cox, P. T.;Erbacher, R.;Gardner, M.;Ko, W.;Lander, R.;Miceli, T.;Mulhearn, M.;Pellett, D.;Pilot, J.;Ricci-Tam, F.;Searle, M.;Shalhout, S.;Smith, J.;Squires, M.;Stolp, D.;Tripathi, M.;Wilbur, S.;Yohay, R.;Cousins, R.;Everaerts, P.;Farrell, C.;Hauser, J.;Ignatenko, M.;Rakness, G.;Takasugi, E.;Valuev, V.;Weber, M.;Babb, J.;Burt, K.;Clare, R.;Ellison, J.;Gary, J.;Hanson, G.;Heilman, J.;Rikova, M. I.;Jandir, P.;Kennedy, E.;Lacroix, F.;Liu, H.;Long, O.;Luthra, A.;Malberti, M.;Nguyen, H.;Shrinivas, A.;Sumowidagdo, S.;Wimpenny, S.;Andrews, W.;Branson, J. G.;Cerati, G. B.;Cittolin, S.;D'Agnolo, R.;Evans, D.;Holzner, A.;Kelley, R.;Klein, D.;Lebourgeois, M.;Letts, J.;Macneill, I.;Olivito, D.;Padhi, S.;Palmer, C.;Pieri, M.;Sani, M.;Sharma, V.;Simon, S.;Sudano, E.;Tadel, M.;Tu, Y.;Vartak, A.;Welke, C.;Wurthwein, F.;Yagil, A.;Yoo, J.;Barge, D.;Bradmiller-Feld, J.;Campagnari, C.;Danielson, T.;Dishaw, A.;Flowers, K.;Sevilla, M. F.;Geffert, P.;George, C.;Golf, F.;Gouskos, L.;Incandela, J.;Justus, C.;McColl, N.;Richman, J.;Stuart, D.;To, W.;West, C.;Apresyan, A.;Bornheim, A.;Bunn, J.;Chen, Y.;Di Marco, E.;Duarte, J.;Mott, A.;Newman, H. B.;Pena, C.;Rogan, C.;Spiropulu, M.;Timciuc, V.;Wilkinson, R.;Xie, S.;Zhu, R.;Azzolini, V.;Calamba, A.;Ferguson, T.;Iiyama, Y.;Paulini, M.;Russ, J.;Vogel, H.;Vorobiev, I.;Cumalat, J. P.;Drell, B.;Ford, W. T.;Gaz, A.;Lopez, E. L.;Nauenberg, U.;Smith, J.;Stenson, K.;Ulmer, K.;Wagner, S.;Alexander, J.;Chatterjee, A.;Chu, J.;Dittmer, S.;Eggert, N.;Mirman, N.;Kaufman, G. N.;Patterson, J.;Ryd, A.;Salvati, E.;Skinnari, L.;Sun, W.;Teo, W.;Thom, J.;Thompson, J.;Tucker, J.;Weng, Y.;Winstrom, L.;Wittich, P.;Winn, D.;Abdullin, S.;Albrow, M.;Anderson, J.;Apollinari, G.;Bauerdick, L.;Beretvas, A.;Berryhill, J.;Bhat, P.;Burkett, K.;Butler, J. N.;Cheung, H.;Chlebana, F.;Cihangir, S.;Elvira, V. D.;Fisk, I.;Freeman, J.;Gao, Y.;Gottschalk, E.;Gray, L.;Green, D.;Grunendahl, S.;Gutsche, O.;Hanlon, J.;Hare, D.;Harris, R.;Hirschauer, J.;Hooberman, B.;Jindariani, S.;Johnson, M.;Joshi, U.;Kaadze, K.;Klima, B.;Kreis, B.;Kwan, S.;Linacre, J.;Lincoln, D.;Lipton, R.;Liu, T.;Lykken, J.;Maeshima, K.;Marraffino, J.;Outschoorn, V. M.;Maruyama, S.;Mason, D.;McBride, P.;Mishra, K.;Mrenna, S.;Musienko, Y.;Nahn, S.;Newman-Holmes, C.;O'Dell, V.;Prokofyev, O.;Sexton-Kennedy, E.;Sharma, S.;Soha, A.;Spalding, W. J.;Spiegel, L.;Taylor, L.;Tkaczyk, S.;Tran, N.;Uplegger, L.;Vaandering, E.;Vidal, R.;Whitbeck, A.;Whitmore, J.;Yang, F.;Acosta, D.;Avery, P.;Bourilkov, D.;Carver, M.;Cheng, T.;Curry, D.;Das, S.;De Gruttola, M.;Di Giov
Study of space charge in the ICARUS T600 detector
The accumulation of positive ions, produced by ionizing particles crossing Liquid Argon Time Projection Chambers (LAr-TPCs), may generate distortions of the electric drift field affecting the track reconstruction of the ionizing events. These effects could become relevant for large LAr-TPCs operating at surface or at shallow depth, where the detectors are exposed to a copious flux of cosmic rays. A detailed study of such possible field distortions in the ICARUS T600 LAr-TPC has been performed analyzing a sample of cosmic muon tracks recorded with one T600 module operated at surface in 2001. The maximum track distortion turns out to be of few mm in good agreement with the prediction by a numerical calculation. As a cross-check, the same analysis has been performed on a cosmic muon sample recorded during the ICARUS T600 run at the LNGS underground laboratory, where the cosmic ray flux was suppressed by a factor ∼106 by 3400 m water equivalent shielding. No appreciable distortion has been observed, confirming that the effects measured on surface are actually due to ion space charge.The accumulation of positive ions, produced by ionizing particles crossing Liquid Argon Time Projection Chambers (LAr-TPCs), may generate distortions of the electric drift field affecting the track reconstruction of the ionizing events. These effects could become relevant for large LAr-TPCs operating at surface or at shallow depth, where the detectors are exposed to a copious flux of cosmic rays. A detailed study of such possible field distortions in the ICARUS T600 LAr-TPC has been performed analyzing a sample of cosmic muon tracks recorded with one T600 module operated at surface in 2001. The maximum track distortion turns out to be of few mm in good agreement with the prediction by a numerical calculation. As a cross-check, the same analysis has been performed on a cosmic muon sample recorded during the ICARUS T600 run at the LNGS underground laboratory, where the cosmic ray flux was suppressed by a factor by 3400 m water equivalent shielding. No appreciable distortion has been observed, confirming that the effects measured on surface are actually due to ion space charge
Limit on νe→ντ oscillations from the NOMAD experiment
In the context of a two-flavour approximation we reinterpret the published NOMAD limit on nu(mu) --> nu(tau) oscillations in terms of nu(e) --> nu(tau) oscillations. At 90% C.L. we obtain sin2(2)theta(e tau) < 5.2 X 10(-2) for large Delta m(2), while for sin2(2)theta(e tau) = 1 the confidence region includes Delta m(2) < 11 eV(2)/c(4)
Control and management in a complex biotechnical system of a dairy farm
The research is aimed at profound study of the influence of the "machine" factor (M) in the "human-machineanimal" system ("H-M-A") with the detailed description of the functions performed by "M", taking into account the convey of "M" control and control functions from the subsystems "human-operator" (HO) and "animal" (A). The paper presents the scheme of transformation and expansion of machine functionality in a biotechnical system; mathematical modeling of the dependence of technological signals controlled by the functions of local biotechnological systems (LBTS); mathematical model of diagnostic signals about the corresponding parameters of technical blocks of LBTS. Algorithmization and digitalization of processes on a dairy farm include an extended list of control indicators: technological signals, diagnostic signals and "alarm" signals presented in the article in matrix form. Monitoring the parameters of the most important subsystem "M" of the complex biotechnical system "H-M-A" of a dairy farm provides an increase in the level of automation, digitalization and intellectualization of the corresponding processes of milking, feeding, manure removal and others which creates prerequisites for improving their work and servicing animals as well as increasing the level of autonomy of their functioning. The development of the "machine" factor of the system is advisable on the basis of the machine-centric model of the LBTS, which will gradually expand its functions due to the transferred control and management functions from the corresponding subsystems "HO" and "A". The control parameters are determined at the characteristic reference points of the quarter curves of milk output for the development of refined algorithms for controlling the milking processes of individual udder shares in automated and robotic milking machines of the new generation. A graphical and numerical model of a wheeled feed-pusher robot in the Matlab/Simulink environment is shown. The created mathematical model of motion control by a wheeled feed-pusher robot provides effective interaction of the positioning system and the wheeedl robot drive in digital of autonomous movement
The mitochondria-targeted derivative of the classical uncoupler of oxidative phosphorylation carbonyl cyanide m-chlorophenylhydrazone is an effective mitochondrial recoupler.
The synthesis of a mitochondria-targeted derivative of the classical mitochondrial uncoupler carbonyl cyanide-m-chlorophenylhydrazone (CCCP) by alkoxy substitution of CCCP with n-decyl(triphenyl)phosphonium cation yielded mitoCCCP, which was able to inhibit the uncoupling action of CCCP, tyrphostin A9 and niclosamide on rat liver mitochondria, but not that of 2,4-dinitrophenol, at a concentration of 1-2 μM. MitoCCCP did not uncouple mitochondria by itself at these concentrations, although it exhibited uncoupling action at tens of micromolar concentrations. Thus, mitoCCCP appeared to be a more effective mitochondrial recoupler than 6-ketocholestanol. Both mitoCCCP and 6-ketocholestanol did not inhibit the protonophoric activity of CCCP in artificial bilayer lipid membranes, which might compromise the simple proton-shuttling mechanism of the uncoupling activity on mitochondria
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