-
581“…We worked out two tests of this method using event generator PYTHIA; at first on parton level, then using detector response simulator ATLFAST.In most cases we have obtained two solutions from which we have chosen the only with the highest probability.The probability for each solution was computed using angular distribution in central mass system of top-antitop pair together with both neutrinos' energy distributions.The stability of solution can be among others proved by reconstruction of mass of the top.…”
Enlace del recurso
-
582por Ataian, M R, Bai, Y, De Wolf, E A, Endler, A M F, Fu Jing Hua, Gulkanian, H R, Hakobyan, R S, Kittel, E W, Lian Shou Liu, Metreveli, Z V, Smimova, L N, Tikhonova, L A, Tomaradze, A G, Verbeure, F, Wu Yuang Fang, Zotkin, S A“…The results are compared with those from the PYTHIA Monte Carlo generator. The fluctuations under the same acceptance cuts as used in current heavy- ion experiments are also presented.…”
Publicado 2002
Enlace del recurso
Enlace del recurso
-
583“…After correcting the published values, in particular for the 'time evolution' of the branching ratios, the measurements are compared to LO pQCD calculations performed with Pythia. as a function of the collision energy, using the latest parametrizations of the parton distribution functions. …”
Enlace del recurso
Enlace del recurso
-
584por Ask, S“…The study was made using {\tt Pythia v6.319} events at generator level and a simple program simulating the detector response of the luminosity monitors. …”
Publicado 2005
Enlace del recurso
-
585por Bianchin, C“…The jet fragmentation into charged particles, pions, kaons, and protons measured by ALICE in pp collisions are presented. Different PYTHIA tunes are challenged in reproducing jet fragmentation into light particles. …”
Publicado 2015
Enlace del recurso
Enlace del recurso
-
586por Nayak, Kishora“…None of the common QCD-inspired models (DIPSY, EPOS, PYTHIA8) are able to simultaneously describe the observed multiplicity dependent particle ratios.…”
Publicado 2017
Enlace del recurso
-
587por Abbiendi, G., Ackerstaff, K., Alexander, G., Allison, John, Altekamp, N., Anderson, K.J., Anderson, S., Arcelli, S., Asai, S., Ashby, S.F., Axen, D., Azuelos, G., Ball, A.H., Barberio, E., Barlow, Roger J., Bartoldus, R., Batley, J.R., Baumann, S., Bechtluft, J., Behnke, T., Bell, Kenneth Watson, Bella, G., Bellerive, A., Bentvelsen, S., Bethke, S., Betts, S., Biebel, O., Biguzzi, A., Bird, S.D., Blobel, V., Bloodworth, I.J., Bobinski, M., Bock, P., Bohme, J., Bonacorsi, D., Boutemeur, M., Braibant, S., Bright-Thomas, P., Brigliadori, L., Brown, Robert M., Burckhart, H.J., Burgard, C., Burgin, R., Capiluppi, P., Carnegie, R.K., Carter, A.A., Carter, J.R., Chang, C.Y., Charlton, David G., Chrisman, D., Ciocca, C., Clarke, P.E.L., Clay, E., Cohen, I., Conboy, J.E., Cooke, O.C., Couyoumtzelis, C., Coxe, R.L., Cuffiani, M., Dado, S., Dallavalle, G.Marco, Davis, R., De Jong, S., del Pozo, L.A., De Roeck, A., Desch, K., Dienes, B., Dixit, M.S., Dubbert, J., Duchovni, E., Duckeck, G., Duerdoth, I.P., Eatough, D., Estabrooks, P.G., Etzion, E., Evans, H.G., Fabbri, F., Fanti, M., Faust, A.A., Fiedler, F., Fierro, M., Fleck, I., Folman, R., Furtjes, A., Futyan, D.I., Gagnon, P., Gary, J.W., Gascon, J., Gascon-Shotkin, S.M., Gaycken, G., Geich-Gimbel, C., Giacomelli, G., Giacomelli, P., Gibson, V., Gibson, W.R., Gingrich, D.M., Glenzinski, D., Goldberg, J., Gorn, W., Grandi, C., Gross, E., Grunhaus, J., Gruwe, M., Hanson, G.G., Hansroul, M., Hapke, M., Harder, K., Hargrove, C.K., Hartmann, C., Hauschild, M., Hawkes, C.M., Hawkings, R., Hemingway, R.J., Herndon, M., Herten, G., Heuer, R.D., Hildreth, M.D., Hill, J.C., Hillier, S.J., Hobson, P.R., Hocker, James Andrew, Homer, R.J., Honma, A.K., Horvath, D., Hossain, K.R., Howard, R., Huntemeyer, P., Igo-Kemenes, P., Imrie, D.C., Ishii, K., Jacob, F.R., Jawahery, A., Jeremie, H., Jimack, M., Jones, C.R., Jovanovic, P., Junk, T.R., Karlen, D., Kartvelishvili, V., Kawagoe, K., Kawamoto, T., Kayal, P.I., Keeler, R.K., Kellogg, R.G., Kennedy, B.W., Klier, A., Kluth, S., Kobayashi, T., Kobel, M., Koetke, D.S., Kokott, T.P., Kolrep, M., Komamiya, S., Kowalewski, Robert V., Kress, T., Krieger, P., von Krogh, J., Kuhl, T., Kyberd, P., Lafferty, G.D., Lanske, D., Lauber, J., Lautenschlager, S.R., Lawson, I., Layter, J.G., Lazic, D., Lee, A.M., Lellouch, D., Letts, J., Levinson, L., Liebisch, R., List, B., Littlewood, C., Lloyd, A.W., Lloyd, S.L., Loebinger, F.K., Long, G.D., Losty, M.J., Ludwig, J., Lui, D., Macchiolo, A., Macpherson, A., Mader, W., Mannelli, M., Marcellini, S., Markopoulos, C., Martin, A.J., Martin, J.P., Martinez, G., Mashimo, T., Mattig, Peter, McDonald, W.John, McKenna, J., Mckigney, E.A., McMahon, T.J., McPherson, R.A., Meijers, F., Menke, S., Merritt, F.S., Mes, H., Meyer, J., Michelini, A., Mihara, S., Mikenberg, G., Miller, D.J., Mir, R., Mohr, W., Montanari, A., Mori, T., Nagai, K., Nakamura, I., Neal, H.A., Nellen, B., Nisius, R., O'Neale, S.W., Oakham, F.G., Odorici, F., Ogren, H.O., Oreglia, M.J., Orito, S., Palinkas, J., Pasztor, G., Pater, J.R., Patrick, G.N., Patt, J., Perez-Ochoa, R., Petzold, S., Pfeifenschneider, P., Pilcher, J.E., Pinfold, J., Plane, David E., Poffenberger, P., Polok, J., Przybycien, M., Rembser, C., Rick, H., Robertson, S., Robins, S.A., Rodning, N., Roney, J.M., Roscoe, K., Rossi, A.M., Rozen, Y., Runge, K., Runolfsson, O., Rust, D.R., Sachs, K., Saeki, T., Sahr, O., Sang, W.M., Sarkisian, E.K.G., Sbarra, C., Schaile, A.D., Schaile, O., Scharf, F., Scharff-Hansen, P., Schieck, J., Schmitt, B., Schmitt, S., Schoning, A., Schroder, Matthias, Schumacher, M., Schwick, C., Scott, W.G., Seiler, T., Seuster, R., Shears, T.G., Shen, B.C., Shepherd-Themistocleous, C.H., Sherwood, P., Siroli, G.P., Sittler, A., Skuja, A., Smith, A.M., Snow, G.A., Sobie, R., Soldner-Rembold, S., Sproston, M., Stahl, A., Stephens, K., Steuerer, J., Stoll, K., Strom, David M., Strohmer, R., Surrow, B., Talbot, S.D., Tanaka, S., Taras, P., Tarem, S., Teuscher, R., Thiergen, M., Thomson, M.A., von Torne, E., Torrence, E., Towers, S., Trigger, I., Trocsanyi, Z., Tsur, E., Turcot, A.S., Turner-Watson, M.F., Van Kooten, Rick J., Vannerem, P., Verzocchi, M., Voss, H., Wackerle, F., Wagner, A., Ward, C.P., Ward, D.R., Watkins, P.M., Watson, A.T., Watson, N.K., Wells, P.S., Wermes, N., White, J.S., Wilson, G.W., Wilson, J.A., Wyatt, T.R., Yamashita, S., Yekutieli, G., Zacek, V., Zer-Zion, D.“…Our results agree with the predictions of two Monte Carlo event generators, grc4f and PYTHIA.…”
Publicado 1998
Enlace del recurso
Enlace del recurso
-
588por Bhattacharya, Subhaditya“…We present the numerical predictions over a wide region of parameter space using event generator {\tt Pythia}. Certain broad features emerge from the study which may be useful to identify these non-universal schemes and distinguish them from the minimal supergravity (mSUGRA) framework.…”
Publicado 2008
Enlace del recurso
Enlace del recurso
-
589por Badalà, A, Pappalardo, G S, Vernet, R, Blanco, F, La Rocca, P, Petta, C, Pulvirenti, A, Riggi, F“…The capability of the ALICE detector to reconstruct short-lived resonances from the very beginning of the LHC p-p program start-up was investigated, considering about 300,000 minimum bias p-p PYTHIA events at 900 GeV and 10 TeV, fully reconstructed under the hypothesis of a still misaligned detector. …”
Publicado 2008
Enlace del recurso
-
590por Pochybova, Sona“…The analysis was performed on two PYTHIA data sets, both involving $pp$ collisions at $\sqrt{s} = 14$ TeV with enhanced jet production. …”
Publicado 2009
Enlace del recurso
Enlace del recurso
-
591por Sen, Niladri“…Comparisons to next-to-leading order perturbative calculations, and predictions from event generators based on different parton showering mechanisms ({\sc pythia} and {\sc herwig}) and parton dynamics ({\sc cascade}) are shown.…”
Publicado 2011
Enlace del recurso
-
592por Maire, Antonin“…These results are compared to PYTHIA Perugia 2011 predictions.…”
Publicado 2011
Enlace del recurso
Enlace del recurso
-
593“…Such an approach is motivated by the observation that even for moderate impact parameters a substantial number of partonic interactions may be produced, while at the same time the protons are sufficiently far apart to create a preferential direction in azimuth. A re-tune of the Pythia6 Z2 tune based on underlying event and minimum bias distributions measured at the LHC shows that a better description of data can be obtained with this approach and that some tension existing between underlying event and minimum bias distributions can be removed. …”
Enlace del recurso
-
594por Venaruzzo, Massimo“…Their yields and $p_{\mathrm{T}}$ spectra are compared with Monte Carlo models such as PHOJET and different PYTHIA tunes.…”
Publicado 2012
Enlace del recurso
Enlace del recurso
-
595por Lai, Yue Shi“…For events containing an isolated photon with transverse momentum $p_T > 60\:\mathrm{GeV}/c$ and an associated jet with $p_T > 30\:\mathrm{GeV}/c$, the photon+jet $p_T$ imbalance is studied as a function of collision centrality and compared to pp data and \textsc{pythia} calculations at the same centre-of-mass energy. …”
Publicado 2012
Enlace del recurso
-
596por Bendicio, Alvin Kristopher“…The process was simulated using PYTHIA8 to generate events, with the FastJet 3 framework to find hadronic jets in the reaction products. …”
Publicado 2013
Enlace del recurso
-
597por Bendicio, Alvin Kristopher“…The process was simulated using PYTHIA8 to generate events, with the FastJet 3 framework to find hadronic jets in the reaction products. …”
Publicado 2013
Enlace del recurso
-
598por Donadelli, Marisilvia“…In this letter, measurements of $\gamma$, $Z$ and $W^{\pm}$ production in lead-lead and proton-lead collisions are shown and compared to predicted rates from JETPHOX (for $\gamma$) and PYTHIA/POWHEG (for $Z$ and $W^{\pm}$).…”
Publicado 2014
Enlace del recurso
-
599por CMS Collaboration“…For the simulation of top-quark pair events, the POWHEG generator is used for the hard partonic process, interfaced with Pythia8 for parton showering and hadronization.…”
Publicado 2015
Enlace del recurso
-
600por Callea, Giuseppe“…The leading-logarithm parton-shower predictions from SHERPA and PYTHIA as well as next-to-leading-order QCD calculations from JETPHOX are compared to the measurements.…”
Publicado 2017
Enlace del recurso