M. Murray - University of Glasgow United Kingdom

M. Murray
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Name
M. Murray
Affiliation
University of Glasgow United Kingdom
City
Glasgow
Country
United Kingdom

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High Energy Physics - Experiment (31)
 
Nuclear Experiment (17)
 
High Energy Physics - Phenomenology (11)
 
Mathematics - Differential Geometry (8)
 
Physics - Instrumentation and Detectors (7)
 
High Energy Physics - Theory (5)
 
Mathematics - Category Theory (2)
 
Mathematics - Mathematical Physics (2)
 
Mathematical Physics (2)
 
Mathematics - K-Theory and Homology (2)
 
Mathematics - Algebraic Topology (1)
 
Nuclear Theory (1)
 
Quantitative Biology - Biomolecules (1)
 
Mathematics - Analysis of PDEs (1)
 
Mathematics - Dynamical Systems (1)
 
Physics - Biological Physics (1)

Publications Authored By M. Murray

In this paper, we prove existence of symmetric homoclinic orbits for the suspension bridge equation $u""+\beta u" + e^u-1=0$ for all parameter values $\beta \in [0.5,1.9]$. Read More

In this paper we address the question of the existence of a model for the string 2-group as a strict Lie-2-group using the free loop group $LSpin$ (or more generally $LG$ for compact simple simply-connected Lie groups $G$). Baez--Crans--Stevenson--Schreiber constructed a model for the string 2-group using the based loop group $\Omega Spin$. This has the deficiency that it does not admit an action of the circle group $S^{1}$, which is of crucial importance, for instance in the construction of a (hypothetical) $S^{1}$-equivariant index of (higher) differential operators. Read More

2016Nov
Authors: K. Akiba1, M. Akbiyik2, M. Albrow3, M. Arneodo4, V. Avati5, J. Baechler6, O. Villalobos Baillie7, P. Bartalini8, J. Bartels9, S. Baur10, C. Baus11, W. Beaumont12, U. Behrens13, D. Berge14, M. Berretti15, E. Bossini16, R. Boussarie17, S. Brodsky18, M. Broz19, M. Bruschi20, P. Bussey21, W. Byczynski22, J. C. Cabanillas Noris23, E. Calvo Villar24, A. Campbell25, F. Caporale26, W. Carvalho27, G. Chachamis28, E. Chapon29, C. Cheshkov30, J. Chwastowski31, R. Ciesielski32, D. Chinellato33, A. Cisek34, V. Coco35, P. Collins36, J. G. Contreras37, B. Cox38, D. de Jesus Damiao39, P. Davis40, M. Deile41, D. D'Enterria42, D. Druzhkin43, B. Ducloué44, R. Dumps45, R. Dzhelyadin46, P. Dziurdzia47, M. Eliachevitch48, P. Fassnacht49, F. Ferro50, S. Fichet51, D. Figueiredo52, B. Field53, D. Finogeev54, R. Fiore55, J. Forshaw56, A. Gago Medina57, M. Gallinaro58, A. Granik59, G. von Gersdorff60, S. Giani61, K. Golec-Biernat62, V. P. Goncalves63, P. Göttlicher64, K. Goulianos65, J. -Y. Grosslord66, L. A. Harland-Lang67, H. Van Haevermaet68, M. Hentschinski69, R. Engel70, G. Herrera Corral71, J. Hollar72, L. Huertas73, D. Johnson74, I. Katkov75, O. Kepka76, M. Khakzad77, L. Kheyn78, V. Khachatryan79, V. A. Khoze80, S. Klein81, M. van Klundert82, F. Krauss83, A. Kurepin84, N. Kurepin85, K. Kutak86, E. Kuznetsova87, G. Latino88, P. Lebiedowicz89, B. Lenzi90, E. Lewandowska91, S. Liu92, A. Luszczak93, M. Luszczak94, J. D. Madrigal95, M. Mangano96, Z. Marcone97, C. Marquet98, A. D. Martin99, T. Martin100, M. I. Martinez Hernandez101, C. Martins102, C. Mayer103, R. Mc Nulty104, P. Van Mechelen105, R. Macula106, E. Melo da Costa107, T. Mertzimekis108, C. Mesropian109, M. Mieskolainen110, N. Minafra111, I. L. Monzon112, L. Mundim113, B. Murdaca114, M. Murray115, H. Niewiadowski116, J. Nystrand117, E. G. de Oliveira118, R. Orava119, S. Ostapchenko120, K. Osterberg121, A. Panagiotou122, A. Papa123, R. Pasechnik124, T. Peitzmann125, L. A. Perez Moreno126, T. Pierog127, J. Pinfold128, M. Poghosyan129, M. E. Pol130, W. Prado131, V. Popov132, M. Rangel133, A. Reshetin134, J. -P. Revol135, M. Rijssenbeek136, M. Rodriguez137, B. Roland138, C. Royon139, M. Ruspa140, M. Ryskin141, A. Sabio Vera142, G. Safronov143, T. Sako144, H. Schindler145, D. Salek146, K. Safarik147, M. Saimpert148, A. Santoro149, R. Schicker150, J. Seger151, S. Sen152, A. Shabanov153, W. Schafer154, G. Gil Da Silveira155, P. Skands156, R. Soluk157, A. van Spilbeeck158, R. Staszewski159, S. Stevenson160, W. J. Stirling161, M. Strikman162, A. Szczurek163, L. Szymanowski164, J. D. Tapia Takaki165, M. Tasevsky166, K. Taesoo167, C. Thomas168, S. R. Torres169, A. Tricomi170, M. Trzebinski171, D. Tsybychev172, N. Turini173, R. Ulrich174, E. Usenko175, J. Varela176, M. Lo Vetere177, A. Villatoro Tello178, A. Vilela Pereira179, D. Volyanskyy180, S. Wallon181, G. Wilkinson182, H. Wöhrmann183, K. C. Zapp184, Y. Zoccarato185
Affiliations: 1LHC Forward Physics Working Group, 2LHC Forward Physics Working Group, 3LHC Forward Physics Working Group, 4LHC Forward Physics Working Group, 5LHC Forward Physics Working Group, 6LHC Forward Physics Working Group, 7LHC Forward Physics Working Group, 8LHC Forward Physics Working Group, 9LHC Forward Physics Working Group, 10LHC Forward Physics Working Group, 11LHC Forward Physics Working Group, 12LHC Forward Physics Working Group, 13LHC Forward Physics Working Group, 14LHC Forward Physics Working Group, 15LHC Forward Physics Working Group, 16LHC Forward Physics Working Group, 17LHC Forward Physics Working Group, 18LHC Forward Physics Working Group, 19LHC Forward Physics Working Group, 20LHC Forward Physics Working Group, 21LHC Forward Physics Working Group, 22LHC Forward Physics Working Group, 23LHC Forward Physics Working Group, 24LHC Forward Physics Working Group, 25LHC Forward Physics Working Group, 26LHC Forward Physics Working Group, 27LHC Forward Physics Working Group, 28LHC Forward Physics Working Group, 29LHC Forward Physics Working Group, 30LHC Forward Physics Working Group, 31LHC Forward Physics Working Group, 32LHC Forward Physics Working Group, 33LHC Forward Physics Working Group, 34LHC Forward Physics Working Group, 35LHC Forward Physics Working Group, 36LHC Forward Physics Working Group, 37LHC Forward Physics Working Group, 38LHC Forward Physics Working Group, 39LHC Forward Physics Working Group, 40LHC Forward Physics Working Group, 41LHC Forward Physics Working Group, 42LHC Forward Physics Working Group, 43LHC Forward Physics Working Group, 44LHC Forward Physics Working Group, 45LHC Forward Physics Working Group, 46LHC Forward Physics Working Group, 47LHC Forward Physics Working Group, 48LHC Forward Physics Working Group, 49LHC Forward Physics Working Group, 50LHC Forward Physics Working Group, 51LHC Forward Physics Working Group, 52LHC Forward Physics Working Group, 53LHC Forward Physics Working Group, 54LHC Forward Physics Working 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The goal of this report is to give a comprehensive overview of the rich field of forward physics, with a special attention to the topics that can be studied at the LHC. The report starts presenting a selection of the Monte Carlo simulation tools currently available, chapter 2, then enters the rich phenomenology of QCD at low, chapter 3, and high, chapter 4, momentum transfer, while the unique scattering conditions of central exclusive production are analyzed in chapter 5. The last two experimental topics, Cosmic Ray and Heavy Ion physics are presented in the chapter 6 and 7 respectively. Read More

We introduce a notion of Real bundle gerbes on manifolds equipped with an involution. We elucidate their relation to Jandl gerbes and prove that they are classified by their Real Dixmier-Douady class in Grothendieck's equivariant sheaf cohomology. We show that the Grothendieck group of Real bundle gerbe modules is isomorphic to twisted KR-theory for a torsion Real Dixmier-Douady class. Read More

The BRAHMS collaboration has measured transverse momentum spectra of pions, kaons, protons and antiprotons at rapidities 0 and 3 for Cu+Cu collisions at $\sqrt{s_{NN}} = 200$ GeV. As the collisions become more central the collective radial flow increases while the temperature of kinetic freeze-out decreases. The temperature is lower and the radial flow weaker at forward rapidity. Read More

We develop the theory of simplicial extensions for bundle gerbes and their characteristic classes with a view towards studying descent problems and equivariance for bundle gerbes. Equivariant bundle gerbes are important in the study of orbifold sigma models. We consider in detail two examples: the basic bundle gerbe on a unitary group and a string structure for a principal bundle. Read More

2015May
Authors: HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, N. Bianchi, H. P. Blok, A. Borissov, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, G. Elbakian, F. Ellinghaus, E. Etzelmüller, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, G. Gapienko, V. Gapienko, J. Garay García, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Hartig, D. Hasch, Y. Holler, I. Hristova, Y. Imazu, A. Ivanilov, H. E. Jackson, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, X. -G. Lu, B. -Q. Ma, D. Mahon, N. C. R. Makins, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, Y. Miyachi, A. Movsisyan, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, A. Schäfer, G. Schnell, B. Seitz, T. -A. Shibata, V. Shutov, M. Stahl, M. Stancari, M. Statera, J. J. M. Steijger, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, B. Zihlmann, P. Zupranski

Bose-Einstein correlations of like-sign charged hadrons produced in deep-inelastic electron and positron scattering are studied in the HERMES experiment using nuclear targets of $^1$H, $^2$H, $^3$He, $^4$He, N, Ne, Kr, and Xe. A Gaussian approach is used to parametrize a two-particle correlation function determined from events with at least two charged hadrons of the same sign charge. This correlation function is compared to two different empirical distributions that do not include the Bose-Einstein correlations. Read More

The earlier search at HERMES for narrow baryon states excited in quasi-real photoproduction, decaying through the channel $pK_S^0\rightarrow p\pi^+\pi^-$, has been extended with improved decay-particle reconstruction, more advanced particle identification, and increased event samples. The structure observed earlier at an invariant mass of 1528 MeV shifts to 1522 MeV and the statistical significance drops to about 2$\sigma$ for data taken with a deuterium target. The number of events above background is $68_{-31}^{+98}\text{(stat)}\pm13\text{(sys)}$. Read More

2014Nov
Authors: The CMS, LHCb Collaborations, :, V. Khachatryan, A. M. Sirunyan, A. Tumasyan, W. Adam, T. Bergauer, M. Dragicevic, J. Erö, M. Friedl, R. Frühwirth, V. M. Ghete, C. Hartl, N. Hörmann, J. Hrubec, M. Jeitler, W. Kiesenhofer, V. Knünz, M. Krammer, I. Krätschmer, D. Liko, I. Mikulec, D. Rabady, B. Rahbaran, H. Rohringer, R. Schöfbeck, J. Strauss, W. Treberer-Treberspurg, W. Waltenberger, C. -E. Wulz, V. Mossolov, N. Shumeiko, J. Suarez Gonzalez, S. Alderweireldt, S. Bansal, T. Cornelis, E. A. De Wolf, X. Janssen, A. Knutsson, J. Lauwers, S. Luyckx, S. Ochesanu, R. Rougny, M. Van De Klundert, H. Van Haevermaet, P. Van Mechelen, N. Van Remortel, A. Van Spilbeeck, F. Blekman, S. Blyweert, J. D'Hondt, N. Daci, N. Heracleous, J. Keaveney, S. Lowette, M. Maes, A. Olbrechts, Q. Python, D. Strom, S. Tavernier, W. Van Doninck, P. Van Mulders, G. P. Van Onsem, I. Villella, C. Caillol, B. Clerbaux, G. De Lentdecker, D. Dobur, L. Favart, A. P. R. Gay, A. Grebenyuk, A. Léonard, A. Mohammadi, L. Perniè, A. Randle-conde, T. Reis, T. Seva, L. Thomas, C. Vander Velde, P. Vanlaer, J. Wang, F. Zenoni, V. Adler, K. Beernaert, L. Benucci, A. Cimmino, S. Costantini, S. Crucy, S. Dildick, A. Fagot, G. Garcia, J. Mccartin, A. A. Ocampo Rios, D. Ryckbosch, S. Salva Diblen, M. Sigamani, N. Strobbe, F. Thyssen, M. Tytgat, E. Yazgan, N. Zaganidis, S. Basegmez, C. Beluffi, G. Bruno, R. Castello, A. Caudron, L. Ceard, G. G. Da Silveira, C. Delaere, T. du Pree, D. Favart, L. Forthomme, A. Giammanco, J. Hollar, A. Jafari, P. Jez, M. Komm, V. Lemaitre, C. Nuttens, D. Pagano, L. Perrini, A. Pin, K. Piotrzkowski, A. Popov, L. Quertenmont, M. Selvaggi, M. Vidal Marono, J. M. Vizan Garcia, N. Beliy, T. Caebergs, E. Daubie, G. H. Hammad, W. L. Aldá Júnior, G. A. Alves, L. Brito, M. Correa Martins Junior, T. Dos Reis Martins, C. Mora Herrera, M. E. Pol, P. Rebello Teles, W. Carvalho, J. Chinellato, A. Custódio, E. M. Da Costa, D. De Jesus Damiao, C. De Oliveira Martins, S. Fonseca De Souza, H. Malbouisson, D. Matos Figueiredo, L. Mundim, H. Nogima, W. L. Prado Da Silva, J. Santaolalla, A. Santoro, A. Sznajder, E. J. Tonelli Manganote, A. Vilela Pereira, C. A. Bernardes, S. Dogra, T. R. Fernandez Perez Tomei, E. M. Gregores, P. G. Mercadante, S. F. Novaes, Sandra S. Padula, A. Aleksandrov, V. Genchev, R. Hadjiiska, P. Iaydjiev, A. Marinov, S. Piperov, M. Rodozov, G. Sultanov, M. Vutova, A. Dimitrov, I. Glushkov, L. Litov, B. Pavlov, P. Petkov, J. G. Bian, G. M. Chen, H. S. Chen, M. Chen, T. Cheng, R. Du, C. H. Jiang, R. Plestina, F. Romeo, J. Tao, Z. Wang, C. Asawatangtrakuldee, Y. Ban, Q. Li, S. Liu, Y. Mao, S. J. Qian, D. Wang, Z. Xu, W. Zou, C. Avila, A. Cabrera, L. F. Chaparro Sierra, C. Florez, J. P. Gomez, B. Gomez Moreno, J. C. Sanabria, N. Godinovic, D. Lelas, D. Polic, I. Puljak, Z. Antunovic, M. Kovac, V. Brigljevic, K. Kadija, J. Luetic, D. Mekterovic, L. Sudic, A. Attikis, G. Mavromanolakis, J. Mousa, C. Nicolaou, F. Ptochos, P. A. Razis, M. Bodlak, M. Finger, M. Finger Jr., Y. Assran, A. Ellithi Kamel, M. A. Mahmoud, A. Radi, M. Kadastik, M. Murumaa, M. Raidal, A. Tiko, P. Eerola, G. Fedi, M. Voutilainen, J. Härkönen, V. Karimäki, R. Kinnunen, M. J. Kortelainen, T. Lampén, K. Lassila-Perini, S. Lehti, T. Lindén, P. Luukka, T. Mäenpää, T. Peltola, E. Tuominen, J. Tuominiemi, E. Tuovinen, L. Wendland, J. Talvitie, T. Tuuva, M. Besancon, F. Couderc, M. Dejardin, D. Denegri, B. Fabbro, J. L. Faure, C. Favaro, F. Ferri, S. Ganjour, A. Givernaud, P. Gras, G. Hamel de Monchenault, P. Jarry, E. Locci, J. Malcles, J. Rander, A. Rosowsky, M. Titov, S. Baffioni, F. Beaudette, P. Busson, C. Charlot, T. Dahms, M. Dalchenko, L. Dobrzynski, N. Filipovic, A. Florent, R. Granier de Cassagnac, L. Mastrolorenzo, P. Miné, C. Mironov, I. N. Naranjo, M. Nguyen, C. Ochando, G. Ortona, P. Paganini, S. Regnard, R. Salerno, J. B. Sauvan, Y. Sirois, C. Veelken, Y. Yilmaz, A. Zabi, J. -L. Agram, J. Andrea, A. Aubin, D. Bloch, J. -M. Brom, E. C. Chabert, C. Collard, E. Conte, J. -C. Fontaine, D. Gelé, U. Goerlach, C. Goetzmann, A. -C. Le Bihan, K. Skovpen, P. Van Hove, S. Gadrat, S. Beauceron, N. Beaupere, G. Boudoul, E. Bouvier, S. Brochet, C. A. Carrillo Montoya, J. Chasserat, R. Chierici, D. Contardo, P. Depasse, H. El Mamouni, J. Fan, J. Fay, S. Gascon, M. Gouzevitch, B. Ille, T. Kurca, M. Lethuillier, L. Mirabito, S. Perries, J. D. Ruiz Alvarez, D. Sabes, L. Sgandurra, V. Sordini, M. Vander Donckt, P. Verdier, S. Viret, H. Xiao, Z. Tsamalaidze, C. Autermann, S. Beranek, M. Bontenackels, M. Edelhoff, L. Feld, A. Heister, O. Hindrichs, K. Klein, A. Ostapchuk, F. Raupach, J. Sammet, S. Schael, J. F. Schulte, H. Weber, B. Wittmer, V. Zhukov, M. Ata, M. Brodski, E. Dietz-Laursonn, D. Duchardt, M. Erdmann, R. Fischer, A. Güth, T. Hebbeker, C. Heidemann, K. Hoepfner, D. Klingebiel, S. Knutzen, P. Kreuzer, M. Merschmeyer, A. Meyer, P. Millet, M. Olschewski, K. Padeken, P. Papacz, H. Reithler, S. A. Schmitz, L. Sonnenschein, D. Teyssier, S. Thüer, M. Weber, V. Cherepanov, Y. Erdogan, G. Flügge, H. Geenen, M. Geisler, W. Haj Ahmad, F. Hoehle, B. Kargoll, T. Kress, Y. Kuessel, A. Künsken, J. Lingemann, A. Nowack, I. M. Nugent, O. Pooth, A. Stahl, M. Aldaya Martin, I. Asin, N. Bartosik, J. Behr, U. Behrens, A. J. Bell, A. Bethani, K. Borras, A. Burgmeier, A. Cakir, L. Calligaris, A. Campbell, S. Choudhury, F. Costanza, C. Diez Pardos, G. Dolinska, S. Dooling, T. Dorland, G. Eckerlin, D. Eckstein, T. Eichhorn, G. Flucke, J. Garay Garcia, A. Geiser, P. Gunnellini, J. Hauk, M. Hempel, H. Jung, A. Kalogeropoulos, M. Kasemann, P. Katsas, J. Kieseler, C. Kleinwort, I. Korol, D. Krücker, W. Lange, J. Leonard, K. Lipka, A. Lobanov, W. Lohmann, B. Lutz, R. Mankel, I. Marfin, I. -A. Melzer-Pellmann, A. B. Meyer, G. Mittag, J. Mnich, A. Mussgiller, S. Naumann-Emme, A. Nayak, E. Ntomari, H. Perrey, D. Pitzl, R. Placakyte, A. Raspereza, P. M. Ribeiro Cipriano, B. Roland, E. Ron, M. Ö. Sahin, J. Salfeld-Nebgen, P. Saxena, T. Schoerner-Sadenius, M. Schröder, C. Seitz, S. Spannagel, A. D. R. Vargas Trevino, R. Walsh, C. Wissing, V. Blobel, M. Centis Vignali, A. R. Draeger, J. Erfle, E. Garutti, K. Goebel, M. Görner, J. Haller, M. Hoffmann, R. S. Höing, A. Junkes, H. Kirschenmann, R. Klanner, R. Kogler, J. Lange, T. Lapsien, T. Lenz, I. Marchesini, J. Ott, T. Peiffer, A. Perieanu, N. Pietsch, J. Poehlsen, T. Poehlsen, D. Rathjens, C. Sander, H. Schettler, P. Schleper, E. Schlieckau, A. Schmidt, M. Seidel, V. Sola, H. Stadie, G. Steinbrück, D. Troendle, E. Usai, L. Vanelderen, A. Vanhoefer, C. Barth, C. Baus, J. Berger, C. Böser, E. Butz, T. Chwalek, W. De Boer, A. Descroix, A. Dierlamm, M. Feindt, F. Frensch, M. Giffels, A. Gilbert, F. Hartmann, T. Hauth, U. Husemann, I. Katkov, A. Kornmayer, E. Kuznetsova, P. Lobelle Pardo, M. U. Mozer, T. Müller, Th. Müller, A. Nürnberg, G. Quast, K. Rabbertz, S. Röcker, H. J. Simonis, F. M. Stober, R. Ulrich, J. Wagner-Kuhr, S. Wayand, T. Weiler, R. Wolf, G. 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Smith, D. Taylor, C. Vuosalo, N. Woods, I. Bediaga, J. M. De Miranda, F. Ferreira Rodrigues, A. Gomes, A. Massafferri, A. C. dos Reis, A. B. Rodrigues, S. Amato, K. Carvalho Akiba, L. De Paula, O. Francisco, M. Gandelman, A. Hicheur, J. H. Lopes, D. Martins Tostes, I. Nasteva, J. M. Otalora Goicochea, E. Polycarpo, C. Potterat, M. S. Rangel, V. Salustino Guimaraes, B. Souza De Paula, D. Vieira, L. An, Y. Gao, F. Jing, Y. Li, Z. Yang, X. Yuan, Y. Zhang, L. Zhong, L. Beaucourt, M. Chefdeville, D. Decamp, N. Déléage, Ph. Ghez, J. -P. Lees, J. F. Marchand, M. -N. Minard, B. Pietrzyk, W. Qian, S. T'Jampens, V. Tisserand, E. Tournefier, Z. Ajaltouni, M. Baalouch, E. Cogneras, O. Deschamps, I. El Rifai, M. Grabalosa Gándara, P. Henrard, M. Hoballah, R. Lefèvre, J. Maratas, S. Monteil, V. Niess, P. Perret, C. Adrover, S. Akar, E. Aslanides, J. Cogan, W. Kanso, R. Le Gac, O. Leroy, G. Mancinelli, A. Mordà, M. Perrin-Terrin, J. Serrano, A. Tsaregorodtsev, Y. Amhis, S. Barsuk, M. Borsato, O. 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Perazzini, V. Vagnoni, G. Valenti, M. Zangoli, W. Bonivento, S. Cadeddu, A. Cardini, V. Cogoni, A. Contu, A. Lai, B. Liu, G. Manca, R. Oldeman, B. Saitta, C. Vacca, M. Andreotti, W. Baldini, C. Bozzi, R. Calabrese, M. Corvo, M. Fiore, M. Fiorini, E. Luppi, L. L. Pappalardo, I. Shapoval, G. Tellarini, L. Tomassetti, S. Vecchi, L. Anderlini, A. Bizzeti, M. Frosini, G. Graziani, G. Passaleva, M. Veltri, G. Bencivenni, P. Campana, P. De Simone, G. Lanfranchi, M. Palutan, M. Rama, A. Sarti, B. Sciascia, R. Vazquez Gomez, R. Cardinale, F. Fontanelli, S. Gambetta, C. Patrignani, A. Petrolini, A. Pistone, M. Calvi, L. Cassina, C. Gotti, B. Khanji, M. Kucharczyk, C. Matteuzzi, J. Fu, A. Geraci, N. Neri, F. Palombo, S. Amerio, G. Collazuol, S. Gallorini, A. Gianelle, D. Lucchesi, A. Lupato, M. Morandin, M. Rotondo, L. Sestini, G. Simi, R. Stroili, F. Bedeschi, R. Cenci, S. Leo, P. Marino, M. J. Morello, G. Punzi, S. Stracka, J. Walsh, G. Carboni, E. Furfaro, E. Santovetti, A. Satta, A. A. Alves Jr, G. Auriemma, V. Bocci, G. Martellotti, G. Penso, D. Pinci, R. Santacesaria, C. Satriano, A. Sciubba, A. Dziurda, W. Kucewicz, T. Lesiak, B. Rachwal, M. Witek, M. Firlej, T. Fiutowski, M. Idzik, P. Morawski, J. Moron, A. Oblakowska-Mucha, K. Swientek, T. Szumlak, V. Batozskaya, K. Klimaszewski, K. Kurek, M. Szczekowski, A. Ukleja, W. Wislicki, L. Cojocariu, L. Giubega, A. Grecu, F. Maciuc, M. Orlandea, B. Popovici, S. Stoica, M. Straticiuc, G. Alkhazov, N. Bondar, A. Dzyuba, O. Maev, N. Sagidova, Y. Shcheglov, A. Vorobyev, S. Belogurov, I. Belyaev, V. Egorychev, D. Golubkov, T. Kvaratskheliya, I. V. Machikhiliyan, I. Polyakov, D. Savrina, A. Semennikov, A. Zhokhov, A. Berezhnoy, M. Korolev, A. Leflat, N. Nikitin, S. Filippov, E. Gushchin, L. Kravchuk, A. Bondar, S. Eidelman, P. Krokovny, V. Kudryavtsev, L. Shekhtman, V. Vorobyev, A. Artamonov, K. Belous, R. Dzhelyadin, Yu. Guz, A. Novoselov, V. Obraztsov, A. Popov, V. Romanovsky, M. Shapkin, O. Stenyakin, O. Yushchenko, A. Badalov, M. Calvo Gomez, L. Garrido, D. Gascon, R. Graciani Diaz, E. Graugés, C. Marin Benito, E. Picatoste Olloqui, V. Rives Molina, H. Ruiz, X. Vilasis-Cardona, B. Adeva, P. Alvarez Cartelle, A. Dosil Suárez, V. Fernandez Albor, A. Gallas Torreira, J. García Pardiñas, J. A. Hernando Morata, M. Plo Casasus, A. Romero Vidal, J. J. Saborido Silva, B. Sanmartin Sedes, C. Santamarina Rios, P. Vazquez Regueiro, C. Vázquez Sierra, M. Vieites Diaz, F. Alessio, F. Archilli, C. Barschel, S. Benson, J. Buytaert, D. Campora Perez, L. Castillo Garcia, M. Cattaneo, Ph. Charpentier, X. Cid Vidal, M. Clemencic, J. Closier, V. Coco, P. Collins, G. Corti, B. Couturier, C. D'Ambrosio, F. Dettori, A. Di Canto, H. Dijkstra, P. Durante, M. Ferro-Luzzi, R. Forty, M. Frank, C. Frei, C. Gaspar, V. V. Gligorov, L. A. Granado Cardoso, T. Gys, C. Haen, J. He, T. Head, E. van Herwijnen, R. Jacobsson, D. Johnson, C. Joram, B. Jost, M. Karacson, T. M. Karbach, D. Lacarrere, B. Langhans, R. Lindner, C. Linn, S. 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Oyanguren, P. Ruiz Valls, C. Sanchez Mayordomo, C. J. G. Onderwater, H. W. Wilschut, E. Pesen

A joint measurement is presented of the branching fractions $B^0_s\to\mu^+\mu^-$ and $B^0\to\mu^+\mu^-$ in proton-proton collisions at the LHC by the CMS and LHCb experiments. The data samples were collected in 2011 at a centre-of-mass energy of 7 TeV, and in 2012 at 8 TeV. The combined analysis produces the first observation of the $B^0_s\to\mu^+\mu^-$ decay, with a statistical significance exceeding six standard deviations, and the best measurement of its branching fraction so far. Read More

Tomographic imaging techniques using the Coulomb scattering of cosmic-ray muons have been shown previously to successfully identify and characterise low- and high-Z materials within an air matrix using a prototype scintillating-fibre tracker system. Those studies were performed as the first in a series to assess the feasibility of this technology and image reconstruction techniques in characterising the potential high-Z contents of legacy nuclear waste containers for the UK Nuclear Industry. The present work continues the feasibility study and presents the first images reconstructed from experimental data collected using this small-scale prototype system of low- and high-Z materials encapsulated within a concrete-filled stainless-steel container. Read More

2014Jul

Exclusive electroproduction of $\omega$ mesons on unpolarized hydrogen and deuterium targets is studied in the kinematic region of Q$^2$>1.0 GeV$^2$, 3.0 GeV < W < 6. Read More

2014Jun
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, N. Bianchi, H. P. Blok, A. Borissov, J. Bowles, I. Brodski, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, D. Gabbert, G. Gapienko, V. Gapienko, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Golembiovskaya, C. Hadjidakis, M. Hartig, D. Hasch, A. Hillenbrand, M. Hoek, Y. Holler, I. Hristova, Y. Imazu, A. Ivanilov, H. E. Jackson, H. S. Jo, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, N. Kobayashi, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, X. -G. Lu, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, V. Muccifora, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, F. Sanftl, A. Schäfer, G. Schnell, K. P. Schüler, B. Seitz, T. -A. Shibata, V. Shutov, M. Stancari, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, F. Stinzing, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, A. Vandenbroucke, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, W. Yu, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

The transverse polarization of $\Lambda$ hyperons was measured in inclusive quasireal photoproduction for various target nuclei ranging from hydrogen to xenon. The data were obtained by the HERMES experiment at HERA using the 27.6 GeV lepton beam and nuclear gas targets internal to the lepton storage ring. Read More

The central detector in the MuSun experiment is a pad-plane time projection ionization chamber that operates without gas amplification in deuterium at 31 K; it is used to measure the rate of the muon capture process $\mu^- + d \rightarrow n + n + \nu_\mu$. A new charge-sensitive preamplifier, operated at 140 K, has been developed for this detector. It achieved a resolution of 4. Read More

Elastic scattering of photons from 12C has been investigated using quasi-monoenergetic tagged photons with energies in the range 65 - 115 MeV at laboratory angles of 60 deg, 120 deg, and 150 deg at the Tagged-Photon Facility at the MAX IV Laboratory in Lund, Sweden. A phenomenological model was employed to provide an estimate of the sensitivity of the 12C(g,g)12C cross section to the bound-nucleon polarizabilities. Read More

2013Dec

An earlier extraction from the HERMES experiment of the polarization-averaged parton distribution of strange quarks in the nucleon has been reevaluated using final data on the multiplicities of charged kaons in semi-inclusive deep-inelastic scattering obtained with a kinematically more comprehensive method of correcting for experimental effects. General features of the distribution are confirmed, but the rise at low x is less pronounced than previously reported. Read More

The OLYMPUS experiment was designed to measure the ratio between the positron-proton and electron-proton elastic scattering cross sections, with the goal of determining the contribution of two-photon exchange to the elastic cross section. Two-photon exchange might resolve the discrepancy between measurements of the proton form factor ratio, $\mu_p G^p_E/G^p_M$, made using polarization techniques and those made in unpolarized experiments. OLYMPUS operated on the DORIS storage ring at DESY, alternating between 2. Read More

Tracking the dynamics of fluorescent nanoparticles during embryonic development allows insights into the physical state of the embryo and, potentially, molecular processes governing developmental mechanisms. In this work, we investigate the motion of individual fluorescent nanodiamonds micro-injected into Drosophila melanogaster embryos prior to cellularisation. Fluorescence correlation spectroscopy and wide-field imaging techniques are applied to individual fluorescent nanodiamonds in blastoderm cells during stage 5 of development to a depth of ~40 \mu m. Read More

2013Oct
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, N. Bianchi, H. P. Blok, A. Borissov, J. Bowles, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, D. Gabbert, G. Gapienko, V. Gapienko, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Golembiovskaya, C. Hadjidakis, M. Hartig, D. Hasch, A. Hillenbrand, M. Hoek, Y. Holler, I. Hristova, A. Ivanilov, H. E. Jackson, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, V. Muccifora, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, M. Raithel, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, F. Sanftl, A. Schäfer, G. Schnell, B. Seitz, T. -A. Shibata, V. Shutov, M. Stancari, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, F. Stinzing, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, W. Yu, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

Single-spin asymmetries were investigated in inclusive electroproduction of charged pions and kaons from transversely polarized protons at the HERMES experiment. The asymmetries were studied as a function of the azimuthal angle $\psi$ about the beam direction between the target-spin direction and the hadron production plane, the transverse hadron momentum relative to the direction of the incident beam, and the Feynman variable $x_F$. The $\sin(\psi)$ amplitudes are positive for positive pions and kaons, slightly negative for negative pions and consistent with zero for negative kaons, with particular transverse-momentum but weak $x_F$ dependences. Read More

2013Oct
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, H. P. Blok, H. Böttcher, A. Borissov, J. Bowles, I. Brodski, V. Bryzgalov, J. Burns, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, E. Etzelmüller, R. Fabbri, S. Frullani, G. Gapienko, V. Gapienko, J. Garay García, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Hartig, D. Hasch, Y. Holler, I. Hristova, A. Ivanilov, H. E. Jackson, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, W. Lorenzon, X. -G. Lu, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, Y. Mao, B. Marianski, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, V. Muccifora, M. Murray, A. Mussgiller, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, A. Schäfer, G. Schnell, B. Seitz, T. -A. Shibata, M. Stahl, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, F. Stinzing, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, V. Zagrebelnyy, B. Zihlmann, P. Zupranski

The beam-helicity asymmetry in associated electroproduction of real photons, $ep\to e\gamma \pi N$, in the $\Delta$(1232)-resonance region is measured using the longitudinally polarized HERA positron beam and an unpolarized hydrogen target. Azimuthal Fourier amplitudes of this asymmetry are extracted separately for two channels, $ep\to e\gamma \pi^0 p$ and $ep\to e\gamma \pi^+ n$, from a data set collected with a recoil detector. All asymmetry amplitudes are found to be consistent with zero. Read More

Tomographic imaging techniques using the Coulomb scattering of cosmic-ray muons are increasingly being exploited for the non-destructive assay of shielded containers in a wide range of applications. One such application is the characterisation of legacy nuclear waste materials stored within industrial containers. The design, assembly and performance of a prototype muon tomography system developed for this purpose are detailed in this work. Read More

Cosmic-ray muons are highly penetrative charged particles that are observed at sea level with a flux of approximately one per square centimetre per minute. They interact with matter primarily through Coulomb scattering, which is exploited in the field of muon tomography to image shielded objects in a wide range of applications. In this paper, simulation studies are presented that assess the feasibility of a scintillating-fibre tracker system for use in the identification and characterisation of nuclear materials stored within industrial legacy waste containers. Read More

Odd $K$-theory has the interesting property that it admits an infinite number of inequivalent differential refinements. In this paper we provide a bundle theoretic model for odd differential $K$-theory using the caloron correspondence and prove that this refinement is unique up to a unique natural isomorphism. We characterise the odd Chern character and its transgression form in terms of a connection and Higgs field and discuss some applications. Read More

We report on the status of the phenomenological access of generalized parton distributions from photon and meson electroproduction off proton. Thereby, we emphasize the role of HERMES data for deeply virtual Compton scattering, which allows us to map various asymmetries into the space of Compton form factors. Read More

For the final running period of HERA, a recoil detector was installed at the HERMES experiment to improve measurements of hard exclusive processes in charged-lepton nucleon scattering. Here, deeply virtual Compton scattering is of particular interest as this process provides constraints on generalised parton distributions that give access to the total angular momenta of quarks within the nucleon. The HERMES recoil detector was designed to improve the selection of exclusive events by a direct measurement of the four-momentum of the recoiling particle. Read More

The HERMES collaboration presents two sets of recent results: the first related to an extraction of the g2 nucleon structure function determined for DIS on a polarised target and the second related to the measurement of asymmetries related to the deeply virtual Compton scattering process that can be used to discover information on generalised parton distributions and hence nucleon structure. Read More

This talk explores the impact that the Hermes experiment has had regarding knowledge of the Deeply Virtual Compton Scattering process. We discuss the various measurements that Hermes has contributed to the library of DVCS knowledge, with focus in particular on the recent high-precision beam spin and charge asymmetries. Read More

The study of Generalised Parton Distributions (GPDs) promises to provide new knowl- edge of the structure of the nucleon, including, most notably, access to the total angular momentum of quarks within the nucleon. It can be difficult to ascertain new information on the distributions, but amongst all the exclusive processes that can provide access, Deeply Virtual Compton Scatter- ing (DVCS) is relatively simple and experimentally accessible. The HERMES collaboration has the most diverse results pertaining to DVCS of any experiment, extracting asymmetries in the azimuthal distribution of produced photons according to both beam helicity and charge and target spin state. Read More

We utilize the DVCS asymmetry measurements of the HERMES collaboration for access to Compton form factors in the deeply virtual regime and to generalized parton distributions. In particular, the (almost) complete measurement of DVCS observables allows us to map various asymmetries into the space of Compton form factors, where we still rely in this analysis on dominance of twist-two associated Compton form factors. We compare this one-to-one map with local Compton form factor fits and a model dependent global fit. Read More

2012Dec
Authors: HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, H. P. Blok, A. Borissov, J. Bowles, I. Brodski, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, D. Gabbert, G. Gapienko, V. Gapienko, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Golembiovskaya, C. Hadjidakis, M. Hartig, D. Hasch, A. Hillenbrand, M. Hoek, Y. Holler, I. Hristova, Y. Imazu, A. Ivanilov, A. Izotov, H. E. Jackson, H. S. Jo, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, N. Kobayashi, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, B. -Q. Ma, D. Mahon, B. Maiheu, N. C. R. Makins, S. I. Manaenkov, L. Manfré, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, M. Raithel, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, F. Sanftl, A. Schäfer, G. Schnell, B. Seitz, T. -A. Shibata, V. Shutov, M. Stancari, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, F. Stinzing, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, I. Vilardi, C. Vogel, S. Wang, S. Yaschenko, Z. Ye, S. Yen, W. Yu, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

Multiplicities in semi-inclusive deep-inelastic scattering are presented for each charge state of \pi^\pm and K^\pm mesons. The data were collected by the HERMES experiment at the HERA storage ring using 27.6 GeV electron and positron beams incident on a hydrogen or deuterium gas target. Read More

The comparison of photoproduction cross sections for $c\bar{c}$ and b-b(bar) in PbPb and pPb collisions can give sensitivity to nuclear shadowing effects. The photoproduction of vector mesons is even more sensitive to the underlying gluon distributions. In this study we present the cross sections and rapidity dependence of the photoproduction of heavy quarks and exclusive production of vector mesons in ultraperipheral pPb and PbPb collisions at the Large Hadron Collider at sqrt(s_NN)=5 TeV and sqrt(s_NN)=2. Read More

2012Jul
Authors: PANDA Collaboration, W. Erni1, I. Keshelashvili2, B. Krusche3, M. Steinacher4, Y. Heng5, Z. Liu6, H. Liu7, X. Shen8, Q. Wang9, H. Xu10, M. Albrecht11, J. Becker12, K. Eickel13, F. Feldbauer14, M. Fink15, P. Friedel16, F. H. Heinsius17, T. Held18, H. Koch19, B. Kopf20, M. Leyhe21, C. Motzko22, M. Pelizäus23, J. Pychy24, B. Roth25, T. Schröder26, J. Schulze27, M. Steinke28, T. Trifterer29, U. Wiedner30, J. Zhong31, R. Beck32, M. Becker33, S. Bianco34, K. -Th. Brinkmann35, C. Hammann36, F. Hinterberger37, R. Jäkel38, D. Kaiser39, R. Kliemt40, K. Koop41, C. Schmidt42, R. Schnell43, U. Thoma44, P. Vlasov45, C. Wendel46, A. Winnebeck47, Th. Würschig48, H. -G. Zaunick49, A. Bianconi50, M. Bragadireanu51, M. Caprini52, M. Ciubancan53, D. Pantea54, P. -D Tarta55, M. De Napoli56, F. Giacoppo57, E. Rapisarda58, C. Sfienti59, T. Fiutowski60, N. Idzik61, B. Mindur62, D. Przyborowski63, K. Swientek64, E. Bialkowski65, A. Budzanowski66, B. Czech67, S. Kliczewski68, A. Kozela69, P. Kulessa70, P. Lebiedowicz71, K. Malgorzata72, K. Pysz73, W. Schäfer74, R. Siudak75, A. Szczurek76, P. Brandys77, T. Czyzewski78, W. Czyzycki79, M. Domagala80, M. Hawryluk81, G. Filo82, D. Kwiatkowski83, E. Lisowski84, F. Lisowski85, W. Bardan86, D. Gil87, B. Kamys88, St. Kistryn89, K. Korcyl90, W. Krzemieñ91, A. Magiera92, P. Moskal93, Z. Rudy94, P. Salabura95, J. Smyrski96, A. Wroñska97, M. Al-Turany98, R. Arora99, I. Augustin100, H. Deppe101, D. Dutta102, H. Flemming103, K. Götzen104, G. Hohler105, R. Karabowicz106, D. Lehmann107, B. Lewandowski108, J. Lühning109, F. Maas110, H. Orth111, K. Peters112, T. Saito113, G. Schepers114, C. J. Schmidt115, L. Schmitt116, C. Schwarz117, J. Schwiening118, B. Voss119, P. Wieczorek120, A. Wilms121, V. M. Abazov122, G. D. Alexeev123, V. A. Arefiev124, V. I. Astakhov125, M. Yu. Barabanov126, B. V. Batyunya127, Yu. I. Davydov128, V. Kh. Dodokhov129, A. A. Efremov130, A. G. Fedunov131, A. A. Feshchenko132, A. S. Galoyan133, S. Grigoryan134, A. Karmokov135, E. K. Koshurnikov136, V. I. Lobanov137, Yu. Yu. Lobanov138, A. F. Makarov139, L. V. Malinina140, V. L. Malyshev141, G. A. Mustafaev142, A. G. Olshevski143, M. A. Pasyuk144, E. A. Perevalova145, A. A. Piskun146, T. A. Pocheptsov147, G. Pontecorvo148, V. K. Rodionov149, Yu. N. Rogov150, R. A. Salmin151, A. G. Samartsev152, M. G. Sapozhnikov153, G. S. Shabratova154, A. N. Skachkova155, N. B. Skachkov156, E. A. Strokovsky157, M. K. Suleimanov158, R. Sh. Teshev159, V. V. Tokmenin160, V. V. Uzhinsky161, A. S. Vodopyanov162, S. A. Zaporozhets163, N. I. Zhuravlev164, A. G. Zorin165, D. Branford166, D. Glazier167, D. Watts168, P. Woods169, A. Britting170, W. Eyrich171, A. Lehmann172, F. Uhlig173, S. Dobbs174, Z. Metreveli175, K. Seth176, B. Tann177, A. Tomaradze178, D. Bettoni179, V. Carassiti180, P. Dalpiaz181, A. Drago182, E. Fioravanti183, I. Garzia184, M. Negrini185, M. Savriè186, G. Stancari187, B. Dulach188, P. Gianotti189, C. Guaraldo190, V. Lucherini191, E. Pace192, A. Bersani193, M. Macri194, M. Marinelli195, R. F. Parodi196, V. Dormenev197, P. Drexler198, M. Düren199, T. Eisner200, K. Foehl201, A. Hayrapetyan202, P. Koch203, B. Krïoch204, W. Kühn205, S. Lange206, Y. Liang207, M. Liu208, O. Merle209, V. Metag210, M. Moritz211, M. Nanova212, R. Novotny213, B. Spruck214, H. Stenzel215, C. Strackbein216, M. Thiel217, Q. Wang218, T. Clarkson219, C. Euan220, G. Hill221, M. Hoek222, D. Ireland223, R. Kaiser224, T. Keri225, I. Lehmann226, K. Livingston227, P. Lumsden228, D. MacGregor229, B. McKinnon230, R. Montgomery231, M. Murray232, D. Protopopescu233, G. Rosner234, B. Seitz235, G. Yang236, M. Babai237, A. K. Biegun238, A. Glazenborg-Kluttig239, E. Guliyev240, V. S. Jothi241, M. Kavatsyuk242, P. Lemmens243, H. Löhner244, J. Messchendorp245, T. Poelman246, H. Smit247, J. C. van der Weele248, H. Sohlbach249, M. Büscher250, R. Dosdall251, R. Dzhygadlo252, S. Esch253, A. Gillitzer254, F. Goldenbaum255, D. Grunwald256, V. Jha257, G. Kemmerling258, H. Kleines259, A. Lehrach260, R. Maier261, M. Mertens262, H. Ohm263, D. L. Pohl264, D. Prasuhn265, T. Randriamalala266, J. Ritman267, M. Roeder268, G. Sterzenbach269, T. Stockmanns270, P. Wintz271, P. Wüstner272, H. Xu273, J. Kisiel274, S. Li275, Z. Li276, Z. Sun277, H. Xu278, K. Fissum279, K. Hansen280, L. Isaksson281, M. Lundin282, B. Schröder283, P. Achenbach284, A. Denig285, M. Distler286, M. Fritsch287, D. Kangh288, A. Karavdina289, W. Lauth290, M. Michel291, M. C. Mora Espi292, J. Pochodzalla293, S. Sanchez294, A. Sanchez-Lorente295, C. Sfienti296, T. Weber297, V. I. Dormenev298, A. A. Fedorov299, M. V. Korzhik300, O. V. Missevitch301, V. Balanutsa302, V. Chernetsky303, A. Demekhin304, A. Dolgolenko305, P. Fedorets306, A. Gerasimov307, V. Goryachev308, A. Boukharov309, O. Malyshev310, I. Marishev311, A. Semenov312, R. Varma313, B. Ketzer314, I. Konorov315, A. Mann316, S. Neubert317, S. Paul318, M. Vandenbroucke319, Q. Zhang320, A. Khoukaz321, T. Rausmann322, A. Täschner323, J. Wessels324, E. Baldin325, K. Kotov326, S. Peleganchuk327, Yu. Tikhonov328, T. Hennino329, M. Imre330, R. Kunne331, C. Le Galliard332, J. P. Le Normand333, D. Marchand334, A. Maroni335, S. Ong336, J. Pouthas337, B. Ramstein338, P. Rosier339, M. Sudol340, C. Theneau341, E. Tomasi-Gustafsson342, J. Van de Wiele343, T. Zerguerras344, G. Boca345, A. Braghieri346, S. Costanza347, A. Fontana348, P. Genova349, L. Lavezzi350, P. Montagna351, A. Rotondi352, V. Buda353, V. V. Abramov354, A. M. Davidenko355, A. A. Derevschikov356, Y. M. Goncharenko357, V. N. Grishin358, V. A. Kachanov359, D. A. Konstantinov360, V. A. Kormilitsin361, Y. A. Matulenko362, Y. M. Melnik363, A. P. Meschanin364, N. G. Minaev365, V. V. Mochalov366, D. A. Morozov367, L. V. Nogach368, S. B. Nurushev369, A. V. Ryazantsev370, P. A. Semenov371, L. F. Soloviev372, A. V. Uzunian373, A. N. Vasiliev374, A. E. Yakutin375, S. Belostotski376, G. Gavrilov377, A. Itzotov378, A. Kisselev379, P. Kravchenko380, S. Manaenkov381, O. Miklukho382, Y. Naryshkin383, D. Veretennikov384, V. Vikhrov385, A. Zhadanov386, T. Bäck387, B. Cederwall388, C. Bargholtz389, L. Gerén390, P. E. Tegnér391, P. Thørngren392, K. M. von Würtemberg393, L. Fava394, D. Alberto395, A. Amoroso396, M. P. Bussa397, L. Busso398, F. De Mori399, M. Destefanis400, L. Ferrero401, M. Greco402, T. Kugathasan403, M. Maggiora404, S. Marcello405, S. Sosio406, S. Spataro407, D. Calvo408, S. Coli409, P. De Remigis410, A. Filippi411, G. Giraudo412, S. Lusso413, G. Mazza414, M. Mignone415, A. Rivetti416, R. Wheadon417, L. Zotti418, O. Morra419, F. Iazzi420, A. Lavagno421, P. Quarati422, K. Szymanska423, R. Birsa424, F. Bradamante425, A. Bressan426, A. Martin427, H. Clement428, B. Galnander429, H. Calén430, K. Fransson431, T. Johansson432, A. Kupsc433, P. Marciniewski434, E. Thomé435, M. Wolke436, J. Zlomanczuk437, J. Díaz438, A. Ortiz439, P. Buda440, K. Dmowski441, R. Korzeniewski442, D. Przemyslaw443, B. Slowinski444, S. Borsuk445, A. Chlopik446, Z. Guzik447, J. Kopec448, T. Kozlowski449, D. Melnychuk450, M. Plominski451, J. Szewinski452, K. Traczyk453, B. Zwieglinski454, P. Bühler455, A. Gruber456, P. Kienle457, J. Marton458, E. Widmann459, J. Zmeskal460
Affiliations: 1Universität Basel Switzerland, 2Universität Basel Switzerland, 3Universität Basel Switzerland, 4Universität Basel Switzerland, 5Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 6Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 7Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 8Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 9Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 10Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 11Universität Bochum I. Institut für Experimentalphysik, Germany, 12Universität Bochum I. Institut für Experimentalphysik, Germany, 13Universität Bochum I. Institut für Experimentalphysik, Germany, 14Universität Bochum I. Institut für Experimentalphysik, Germany, 15Universität Bochum I. Institut für Experimentalphysik, Germany, 16Universität Bochum I. Institut für Experimentalphysik, Germany, 17Universität Bochum I. Institut für Experimentalphysik, Germany, 18Universität Bochum I. Institut für Experimentalphysik, Germany, 19Universität Bochum I. Institut für Experimentalphysik, Germany, 20Universität Bochum I. Institut für Experimentalphysik, Germany, 21Universität Bochum I. Institut für Experimentalphysik, Germany, 22Universität Bochum I. Institut für Experimentalphysik, Germany, 23Universität Bochum I. Institut für Experimentalphysik, Germany, 24Universität Bochum I. Institut für Experimentalphysik, Germany, 25Universität Bochum I. Institut für Experimentalphysik, Germany, 26Universität Bochum I. Institut für Experimentalphysik, Germany, 27Universität Bochum I. Institut für Experimentalphysik, Germany, 28Universität Bochum I. Institut für Experimentalphysik, Germany, 29Universität Bochum I. Institut für Experimentalphysik, Germany, 30Universität Bochum I. Institut für Experimentalphysik, Germany, 31Universität Bochum I. Institut für Experimentalphysik, Germany, 32Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 33Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 34Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 35Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 36Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 37Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 38Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 39Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 40Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 41Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 42Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 43Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 44Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 45Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 46Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 47Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 48Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 49Rheinische Friedrich-Wilhelms-Universität Bonn Germany, 50Università di Brescia Italy, 51Institutul National de C&D pentru Fizica si Inginerie Nucleara "Horia Hulubei", Bukarest-Magurele Romania, 52Institutul National de C&D pentru Fizica si Inginerie Nucleara "Horia Hulubei", Bukarest-Magurele Romania, 53Institutul National de C&D pentru Fizica si Inginerie Nucleara "Horia Hulubei", Bukarest-Magurele Romania, 54Institutul National de C&D pentru Fizica si Inginerie Nucleara "Horia Hulubei", Bukarest-Magurele Romania, 55Institutul National de C&D pentru Fizica si Inginerie Nucleara "Horia Hulubei", Bukarest-Magurele Romania, 56Dipartimento di Fisica e Astronomia dell'Università di Catania and INFN, Sezione di Catania Italy, 57Dipartimento di Fisica e Astronomia dell'Università di Catania and INFN, Sezione di Catania Italy, 58Dipartimento di Fisica e Astronomia dell'Università di Catania and INFN, Sezione di Catania Italy, 59Dipartimento di Fisica e Astronomia dell'Università di Catania and INFN, Sezione di Catania Italy, 60AGH University of Science and Technology Cracow Poland, 61AGH University of Science and Technology Cracow Poland, 62AGH University of Science and Technology Cracow Poland, 63AGH University of Science and Technology Cracow Poland, 64AGH University of Science and Technology Cracow Poland, 65IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 66IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 67IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 68IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 69IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 70IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 71IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 72IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 73IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 74IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 75IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 76IFJ, Institute of Nuclear Physics PAN, Cracow Poland, 77Institute of Applied Informatics, University of Technology, Cracow Poland, 78Institute of Applied Informatics, University of Technology, Cracow Poland, 79Institute of Applied Informatics, University of Technology, Cracow Poland, 80Institute of Applied Informatics, University of Technology, Cracow Poland, 81Institute of Applied Informatics, University of Technology, Cracow Poland, 82Institute of Applied Informatics, University of Technology, Cracow Poland, 83Institute of Applied Informatics, University of Technology, Cracow Poland, 84Institute of Applied Informatics, University of Technology, Cracow Poland, 85Institute of Applied Informatics, University of Technology, Cracow Poland, 86Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 87Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 88Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 89Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 90Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 91Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 92Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 93Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 94Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 95Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 96Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 97Instytut Fizyki, Uniwersytet Jagiellonski, Cracow Poland, 98Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 99Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 100Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 101Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 102Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 103Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 104Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 105Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 106Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 107Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 108Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 109Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 110Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 111Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 112Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 113Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 114Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 115Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 116Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 117Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 118Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 119Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 120Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 121Gesellschaft für Schwerionenforschung mbH, Darmstadt Germany, 122Veksler-Baldin Laboratory of High Energies, 123Veksler-Baldin Laboratory of High Energies, 124Veksler-Baldin Laboratory of High Energies, 125Veksler-Baldin Laboratory of High Energies, 126Veksler-Baldin Laboratory of High Energies, 127Veksler-Baldin Laboratory of High Energies, 128Veksler-Baldin Laboratory of High Energies, 129Veksler-Baldin Laboratory of High Energies, 130Veksler-Baldin Laboratory of High Energies, 131Veksler-Baldin Laboratory of High Energies, 132Veksler-Baldin Laboratory of High Energies, 133Veksler-Baldin Laboratory of High Energies, 134Veksler-Baldin Laboratory of High Energies, 135Veksler-Baldin Laboratory of High Energies, 136Veksler-Baldin Laboratory of High Energies, 137Veksler-Baldin Laboratory of High Energies, 138Veksler-Baldin Laboratory of High Energies, 139Veksler-Baldin Laboratory of High Energies, 140Veksler-Baldin Laboratory of High Energies, 141Veksler-Baldin Laboratory of High Energies, 142Veksler-Baldin Laboratory of High Energies, 143Veksler-Baldin Laboratory of High Energies, 144Veksler-Baldin Laboratory of High Energies, 145Veksler-Baldin Laboratory of High Energies, 146Veksler-Baldin Laboratory of High Energies, 147Veksler-Baldin Laboratory of High Energies, 148Veksler-Baldin Laboratory of High Energies, 149Veksler-Baldin Laboratory of High Energies, 150Veksler-Baldin Laboratory of High Energies, 151Veksler-Baldin Laboratory of High Energies, 152Veksler-Baldin Laboratory of High Energies, 153Veksler-Baldin Laboratory of High Energies, 154Veksler-Baldin Laboratory of High Energies, 155Veksler-Baldin Laboratory of High Energies, 156Veksler-Baldin Laboratory of High Energies, 157Veksler-Baldin Laboratory of High Energies, 158Veksler-Baldin Laboratory of High Energies, 159Veksler-Baldin Laboratory of High Energies, 160Veksler-Baldin Laboratory of High Energies, 161Veksler-Baldin Laboratory of High Energies, 162Veksler-Baldin Laboratory of High Energies, 163Veksler-Baldin Laboratory of High Energies, 164Veksler-Baldin Laboratory of High Energies, 165Veksler-Baldin Laboratory of High Energies, 166University of Edinburgh United Kingdom, 167University of Edinburgh United Kingdom, 168University of Edinburgh United Kingdom, 169University of Edinburgh United Kingdom, 170Friedrich Alexander Universität Erlangen-Nürnberg Germany, 171Friedrich Alexander Universität Erlangen-Nürnberg Germany, 172Friedrich Alexander Universität Erlangen-Nürnberg Germany, 173Friedrich Alexander Universität Erlangen-Nürnberg Germany, 174Northwestern University, Evanston U. S. A, 175Northwestern University, Evanston U. S. A, 176Northwestern University, Evanston U. S. A, 177Northwestern University, Evanston U. S. A, 178Northwestern University, Evanston U. S. A, 179Università di Ferrara and INFN, Sezione di Ferrara, Italy, 180Università di Ferrara and INFN, Sezione di Ferrara, Italy, 181Università di Ferrara and INFN, Sezione di Ferrara, Italy, 182Università di Ferrara and INFN, Sezione di Ferrara, Italy, 183Università di Ferrara and INFN, Sezione di Ferrara, Italy, 184Università di Ferrara and INFN, Sezione di Ferrara, Italy, 185Università di Ferrara and INFN, Sezione di Ferrara, Italy, 186Università di Ferrara and INFN, Sezione di Ferrara, Italy, 187Università di Ferrara and INFN, Sezione di Ferrara, Italy, 188INFN-Laboratori Nazionali di Frascati Italy, 189INFN-Laboratori Nazionali di Frascati Italy, 190INFN-Laboratori Nazionali di Frascati Italy, 191INFN-Laboratori Nazionali di Frascati Italy, 192INFN-Laboratori Nazionali di Frascati Italy, 193INFN, Sezione di Genova Italy, 194INFN, Sezione di Genova Italy, 195INFN, Sezione di Genova Italy, 196INFN, Sezione di Genova Italy, 197Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 198Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 199Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 200Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 201Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 202Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 203Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 204Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 205Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 206Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 207Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 208Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 209Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 210Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 211Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 212Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 213Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 214Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 215Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 216Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 217Justus Liebig-Universität Gießen II. Physikalisches Institut, Germany, 218Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 219University of Glasgow United Kingdom, 220University of Glasgow United Kingdom, 221University of Glasgow United Kingdom, 222University of Glasgow United Kingdom, 223University of Glasgow United Kingdom, 224University of Glasgow United Kingdom, 225University of Glasgow United Kingdom, 226University of Glasgow United Kingdom, 227University of Glasgow United Kingdom, 228University of Glasgow United Kingdom, 229University of Glasgow United Kingdom, 230University of Glasgow United Kingdom, 231University of Glasgow United Kingdom, 232University of Glasgow United Kingdom, 233University of Glasgow United Kingdom, 234University of Glasgow United Kingdom, 235University of Glasgow United Kingdom, 236University of Glasgow United Kingdom, 237Kernfysisch Versneller Instituut, University of Groningen Netherlands, 238Kernfysisch Versneller Instituut, University of Groningen Netherlands, 239Kernfysisch Versneller Instituut, University of Groningen Netherlands, 240Kernfysisch Versneller Instituut, University of Groningen Netherlands, 241Kernfysisch Versneller Instituut, University of Groningen Netherlands, 242Kernfysisch Versneller Instituut, University of Groningen Netherlands, 243Kernfysisch Versneller Instituut, University of Groningen Netherlands, 244Kernfysisch Versneller Instituut, University of Groningen Netherlands, 245Kernfysisch Versneller Instituut, University of Groningen Netherlands, 246Kernfysisch Versneller Instituut, University of Groningen Netherlands, 247Kernfysisch Versneller Instituut, University of Groningen Netherlands, 248Kernfysisch Versneller Instituut, University of Groningen Netherlands, 249Fachhochschule Südwestfalen, Iserlohn Germany, 250Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 251Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 252Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 253Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 254Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 255Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 256Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 257Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 258Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 259Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 260Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 261Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 262Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 263Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 264Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 265Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 266Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 267Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 268Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 269Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 270Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 271Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 272Forschungszentrum Jülich, Institut für Kernphysik, Jülich Germany, 273Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 274University of Silesia, Katowice Poland, 275Chinese Academy of Science, Institute of Modern Physics, Lanzhou China, 276Chinese Academy of Science, Institute of Modern Physics, Lanzhou China, 277Chinese Academy of Science, Institute of Modern Physics, Lanzhou China, 278Institute of High Energy Physics, Chinese Academy of Sciences, Beijing China, 279Lunds Universitet, Department of Physics, Lund Sweden, 280Lunds Universitet, Department of Physics, Lund Sweden, 281Lunds Universitet, Department of Physics, Lund Sweden, 282Lunds Universitet, Department of Physics, Lund Sweden, 283Lunds Universitet, Department of Physics, Lund Sweden, 284Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 285Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 286Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 287Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 288Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 289Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 290Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 291Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 292Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 293Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 294Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 295Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 296Dipartimento di Fisica e Astronomia dell'Università di Catania and INFN, Sezione di Catania Italy, 297Johannes Gutenberg-Universität, Institut für Kernphysik, Mainz Germany, 298Research Institute for Nuclear Problems, Belarus State University, Minsk Belarus, 299Research Institute for Nuclear Problems, Belarus State University, Minsk Belarus, 300Research Institute for Nuclear Problems, Belarus State University, Minsk Belarus, 301Research Institute for Nuclear Problems, Belarus State University, Minsk Belarus, 302Institute for Theoretical and Experimental Physics, Moscow Russia, 303Institute for Theoretical and Experimental Physics, Moscow Russia, 304Institute for Theoretical and Experimental Physics, Moscow Russia, 305Institute for Theoretical and Experimental Physics, Moscow Russia, 306Institute for Theoretical and Experimental Physics, Moscow Russia, 307Institute for Theoretical and Experimental Physics, Moscow Russia, 308Institute for Theoretical and Experimental Physics, Moscow Russia, 309Moscow Power Engineering Institute, Moscow Russia, 310Moscow Power Engineering Institute, Moscow Russia, 311Moscow Power Engineering Institute, Moscow Russia, 312Moscow Power Engineering Institute, Moscow Russia, 313IIT Bombay, Department of Physics, Mumbai India, 314Technische Universität München Germany, 315Technische Universität München Germany, 316Technische Universität München Germany, 317Technische Universität München Germany, 318Technische Universität München Germany, 319Technische Universität München Germany, 320Technische Universität München Germany, 321Westfälische Wilhelms-Universität Münster Germany, 322Westfälische Wilhelms-Universität Münster Germany, 323Westfälische Wilhelms-Universität Münster Germany, 324Westfälische Wilhelms-Universität Münster Germany, 325Budker Institute of Nuclear Physics, Novosibirsk Russia, 326Budker Institute of Nuclear Physics, Novosibirsk Russia, 327Budker Institute of Nuclear Physics, Novosibirsk Russia, 328Budker Institute of Nuclear Physics, Novosibirsk Russia, 329Institut de Physique Nucléaire, Orsay France, 330Institut de Physique Nucléaire, Orsay France, 331Institut de Physique Nucléaire, Orsay France, 332Institut de Physique Nucléaire, Orsay France, 333Institut de Physique Nucléaire, Orsay France, 334Institut de Physique Nucléaire, Orsay France, 335Institut de Physique Nucléaire, Orsay France, 336Institut de Physique Nucléaire, Orsay France, 337Institut de Physique Nucléaire, Orsay France, 338Institut de Physique Nucléaire, Orsay France, 339Institut de Physique Nucléaire, Orsay France, 340Institut de Physique Nucléaire, Orsay France, 341Institut de Physique Nucléaire, Orsay France, 342Institut de Physique Nucléaire, Orsay France, 343Institut de Physique Nucléaire, Orsay France, 344Institut de Physique Nucléaire, Orsay France, 345Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 346Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 347Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 348Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 349Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 350Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 351Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 352Dipartimento di Fisica Nucleare e Teorica, Università di Pavia, INFN, Sezione di Pavia, Pavia Italy, 353Institute for High Energy Physics, Protvino Russia, 354Institute for High Energy Physics, Protvino Russia, 355Institute for High Energy Physics, Protvino Russia, 356Institute for High Energy Physics, Protvino Russia, 357Institute for High Energy Physics, Protvino Russia, 358Institute for High Energy Physics, Protvino Russia, 359Institute for High Energy Physics, Protvino Russia, 360Institute for High Energy Physics, Protvino Russia, 361Institute for High Energy Physics, Protvino Russia, 362Institute for High Energy Physics, Protvino Russia, 363Institute for High Energy Physics, Protvino Russia, 364Institute for High Energy Physics, Protvino Russia, 365Institute for High Energy Physics, Protvino Russia, 366Institute for High Energy Physics, Protvino Russia, 367Institute for High Energy Physics, Protvino Russia, 368Institute for High Energy Physics, Protvino Russia, 369Institute for High Energy Physics, Protvino Russia, 370Institute for High Energy Physics, Protvino Russia, 371Institute for High Energy Physics, Protvino Russia, 372Institute for High Energy Physics, Protvino Russia, 373Institute for High Energy Physics, Protvino Russia, 374Institute for High Energy Physics, Protvino Russia, 375Institute for High Energy Physics, Protvino Russia, 376Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 377Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 378Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 379Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 380Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 381Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 382Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 383Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 384Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 385Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 386Petersburg Nuclear Physics Institute of Academy of Science, Gatchina, St. Petersburg Russia, 387Kungliga Tekniska Högskolan, Stockholm Sweden, 388Kungliga Tekniska Högskolan, Stockholm Sweden, 389Stockholms Universitet, Stockholm Sweden, 390Stockholms Universitet, Stockholm Sweden, 391Stockholms Universitet, Stockholm Sweden, 392Stockholms Universitet, Stockholm Sweden, 393Stockholms Universitet, Stockholm Sweden, 394Università del Piemonte Orientale Alessandria and INFN, Sezione di Torino, Torino Italy, 395Università di Torino and INFN, Sezione di Torino, Torino Italy, 396Università di Torino and INFN, Sezione di Torino, Torino Italy, 397Università di Torino and INFN, Sezione di Torino, Torino Italy, 398Università di Torino and INFN, Sezione di Torino, Torino Italy, 399Università di Torino and INFN, Sezione di Torino, Torino Italy, 400Università di Torino and INFN, Sezione di Torino, Torino Italy, 401Università di Torino and INFN, Sezione di Torino, Torino Italy, 402Università di Torino and INFN, Sezione di Torino, Torino Italy, 403Università di Torino and INFN, Sezione di Torino, Torino Italy, 404Università di Torino and INFN, Sezione di Torino, Torino Italy, 405Università di Torino and INFN, Sezione di Torino, Torino Italy, 406Università di Torino and INFN, Sezione di Torino, Torino Italy, 407Università di Torino and INFN, Sezione di Torino, Torino Italy, 408INFN, Sezione di Torino, Torino Italy, 409INFN, Sezione di Torino, Torino Italy, 410INFN, Sezione di Torino, Torino Italy, 411INFN, Sezione di Torino, Torino Italy, 412INFN, Sezione di Torino, Torino Italy, 413INFN, Sezione di Torino, Torino Italy, 414INFN, Sezione di Torino, Torino Italy, 415INFN, Sezione di Torino, Torino Italy, 416INFN, Sezione di Torino, Torino Italy, 417INFN, Sezione di Torino, Torino Italy, 418INFN, Sezione di Torino, Torino Italy, 419INAF-IFSI and INFN, Sezione di Torino, Torino Italy, 420Politecnico di Torino and INFN, Sezione di Torino, Torino Italy, 421Politecnico di Torino and INFN, Sezione di Torino, Torino Italy, 422Politecnico di Torino and INFN, Sezione di Torino, Torino Italy, 423Politecnico di Torino and INFN, Sezione di Torino, Torino Italy, 424Università di Trieste and INFN, Sezione di Trieste, Trieste Italy, 425Università di Trieste and INFN, Sezione di Trieste, Trieste Italy, 426Università di Trieste and INFN, Sezione di Trieste, Trieste Italy, 427Università di Trieste and INFN, Sezione di Trieste, Trieste Italy, 428Universität Tübingen, Tübingen Germany, 429The Svedberg Laboratory, Uppsala Sweden, 430Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 431Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 432Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 433Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 434Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 435Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 436Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 437Uppsala Universitet, Institutionen för Strålningsvetenskap, Uppsala Sweden, 438Universitat de Valencia, Dpto. de Física Atómica, Molecular y Nuclear, Valencia Spain, 439Universitat de Valencia, Dpto. de Física Atómica, Molecular y Nuclear, Valencia Spain, 440Warsaw University of Technology, Institute of Atomic Energy Otwock-Swierk, Warsaw Poland, 441Warsaw University of Technology, Institute of Atomic Energy Otwock-Swierk, Warsaw Poland, 442Warsaw University of Technology, Institute of Atomic Energy Otwock-Swierk, Warsaw Poland, 443Warsaw University of Technology, Institute of Atomic Energy Otwock-Swierk, Warsaw Poland, 444Warsaw University of Technology, Institute of Atomic Energy Otwock-Swierk, Warsaw Poland, 445Soltan Institute for Nuclear Studies, Warsaw Poland, 446Soltan Institute for Nuclear Studies, Warsaw Poland, 447Soltan Institute for Nuclear Studies, Warsaw Poland, 448Soltan Institute for Nuclear Studies, Warsaw Poland, 449Soltan Institute for Nuclear Studies, Warsaw Poland, 450Soltan Institute for Nuclear Studies, Warsaw Poland, 451Soltan Institute for Nuclear Studies, Warsaw Poland, 452Soltan Institute for Nuclear Studies, Warsaw Poland, 453Soltan Institute for Nuclear Studies, Warsaw Poland, 454Soltan Institute for Nuclear Studies, Warsaw Poland, 455Österreichische Akademie der Wissenschaften, Stefan Meyer Institut für Subatomare Physik, Wien Austria, 456Österreichische Akademie der Wissenschaften, Stefan Meyer Institut für Subatomare Physik, Wien Austria, 457Österreichische Akademie der Wissenschaften, Stefan Meyer Institut für Subatomare Physik, Wien Austria, 458Österreichische Akademie der Wissenschaften, Stefan Meyer Institut für Subatomare Physik, Wien Austria, 459Österreichische Akademie der Wissenschaften, Stefan Meyer Institut für Subatomare Physik, Wien Austria, 460Österreichische Akademie der Wissenschaften, Stefan Meyer Institut für Subatomare Physik, Wien Austria

This document illustrates the technical layout and the expected performance of the Micro Vertex Detector (MVD) of the PANDA experiment. The MVD will detect charged particles as close as possible to the interaction zone. Design criteria and the optimisation process as well as the technical solutions chosen are discussed and the results of this process are subjected to extensive Monte Carlo physics studies. Read More

2012Jun
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, H. P. Blok, A. Borissov, J. Bowles, I. Brodski, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, E. Etzelmüller, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, G. Gapienko, V. Gapienko, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Golembiovskaya, I. M. Gregor, H. Guler, M. Hartig, D. Hasch, A. Hillenbrand, M. Hoek, Y. Holler, I. Hristova, A. Ivanilov, H. E. Jackson, H. S. Jo, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, B. Krauss, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, S. Lu, X. Lu, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, L. Manfré, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, A. Osborne, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, L. Rubacek, J. Rubin, D. Ryckbosch, A. Schäfer, G. Schnell, K. P. Schüler, B. Seitz, C. Shearer, T. -A. Shibata, V. Shutov, M. Stancari, M. Statera, J. J. M. Steijger, J. Stewart, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

The beam-helicity asymmetry in exclusive electroproduction of real photons by the longitudinally polarized HERA positron beam scattering off an unpolarized hydrogen target is measured at HERMES. The asymmetry arises from deeply virtual Compton scattering and its interference with the Bethe--Heitler process. Azimuthal amplitudes of the beam-helicity asymmetry are extracted from a data sample consisting of $ep\rightarrow ep\gamma$ events with detection of all particles in the final state including the recoiling proton. Read More

Deeply Virtual Compton Scattering represents the best experimental channel through which to understand Generalised Parton Distributions. The HERMES experiment measured the most diverse set of DVCS results of any experiment; this talk discusses the most recent sets of DVCS results released by HERMES and the unique experimental conditions found at HERMES that facilitated the measurements. We also examine the various ways in which the HERMES experimental measurements are being used to constrain GPDs and how future experiments can learn from the HERMES program. Read More

The study of {\rho}0 meson helicity amplitude ratios at HERMES shows that the amplitude hierarchy expected from pQCD is confirmed. The contribution of Unnatural Parity Exchange in the production of {\rho}0 mesons is significant at HERMES kinematics and there is a large phase-difference in the leading F11 and F01 amplitudes. The kinematic dependences of the amplitude ratios only sometimes follow theory-based expectations. Read More

2012Apr
Authors: HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, H. P. Blok, A. Borissov, J. Bowles, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, G. Elbakian, F. Ellinghaus, A. Fantoni, L. Felawka, S. Frullani, G. Gapienko, V. Gapienko, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Golembiovskaya, C. Hadjidakis, M. Hartig, D. Hasch, A. Hillenbrand, M. Hoek, Y. Holler, I. Hristova, Y. Imazu, A. Ivanilov, H. E. Jackson, H. S. Jo, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, L. Manfré, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, M. Murray, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, M. Raithel, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, F. Sanftl, A. Schäfer, G. Schnell, K. P. Schüler, B. Seitz, T. -A. Shibata, M. Stancari, M. Statera, J. J. M. Steijger, J. Stewart, F. Stinzing, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, A. Vandenbroucke, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, W. Yu, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

The azimuthal cos{\phi} and cos2{\phi} modulations of the distribution of hadrons produced in unpolarized semi-inclusive deep-inelastic scattering of electrons and positrons off hydrogen and deuterium targets have been measured in the HERMES experiment. For the first time these modulations were determined in a four-dimensional kinematic space for positively and negatively charged pions and kaons separately, as well as for unidentified hadrons. These azimuthal dependences are sensitive to the transverse motion and polarization of the quarks within the nucleon via, e. Read More

2012Mar
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, H. P. Blok, A. Borissov, J. Bowles, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, A. Fantoni, L. Felawka, S. Frullani, D. Gabbert, G. Gapienko, V. Gapienko, F. Garibaldi, G. Gavrilov, F. Giordano, S. Gliske, M. Golembiovskaya, C. Hadjidakis, M. Hartig, D. Hasch, M. Hoek, Y. Holler, Y. Imazu, H. E. Jackson, H. S. Jo, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, N. Kobayashi, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, W. Lorenzon, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, L. Manfré, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, V. Muccifora, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, M. Raithel, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, F. Sanftl, A. Schäfer, G. Schnell, K. P. Schüler, B. Seitz, T. -A. Shibata, V. Shutov, M. Stancari, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, W. Yu, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

Beam-helicity and beam-charge asymmetries in the hard exclusive leptoproduction of real photons from an unpolarised hydrogen target by a 27.6 GeV lepton beam are extracted from the HERMES data set of 2006-2007 using a missing-mass event selection technique. The asymmetry amplitudes extracted from this data set are more precise than those extracted from the earlier data set of 1996-2005 previously analysed in the same manner by HERMES. Read More