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Angular sampling was evaluated in the determination of dasometric variables in Tectona grandis
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984por Rom, Josef“…The aerodynamics of aircraft at high angles of attack is a subject which is being pursued diligently, because the modern agile fighter aircraft and many of the current generation of missiles must perform well at very high incidence, near and beyond stall. …”
Publicado 1992
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985
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986
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987por Hill, Donal“…--HTML--><p>The Cabibbo-Kobayashi-Maskawa (CKM) angle $\gamma$ is still the least known angle of the Unitarity Triangle, and is the only one that can be accessed exclusively through tree-level $B$-meson decays. …”
Publicado 2017
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988por CMS Collaboration“…A proposal is presented for measuring the weak mixing angle using the forward-backward asymmetry of Drell-Yan dimuon events in pp collisions at $\sqrt{s} = 14~\mathrm{TeV}$ with the CMS detector at the high luminosity LHC (HL-LHC). …”
Publicado 2017
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989
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990
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991
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992por Adriani, O, Aguilar-Benítez, M, Ahlen, S P, Alcaraz, J, Aloisio, A, Alverson, G, Alviggi, M G, Ambrosi, G, An, Q, Anderhub, H, Anderson, A L, Andreev, V P, Antonov, L, Antreasyan, D, Arce, P, Arefev, A, Atamanchuk, A G, Azemoon, T, Aziz, T, Baba, P V K S, Bagnaia, P, Bakken, J A, Baksay, L, Ball, R C, Banerjee, S, Bao, J, Barillère, R, Barone, L, Baschirotto, A, Battiston, R, Bay, A, Becattini, F, Bechtluft, J, Becker, R, Becker, U, Behner, F, Behrens, J, Bencze, G L, Berdugo, J, Berges, P, Bertucci, B, Betev, B L, Biasini, M, Biland, A, Bilei, G M, Bizzarri, R, Blaising, J J, Bobbink, Gerjan J, Böck, R K, Böhm, A, Borgia, B, Bosetti, M, Bourilkov, D, Bourquin, Maurice, Boutigny, D, Bouwens, B T, Brambilla, Elena, Branson, J G, Brock, I C, Brooks, M, Bujak, A T, Burger, J D, Burger, W J, Busenitz, J K, Buytenhuijs, A O, Cai, X D, Capell, M, Caria, M, Carlino, G, Cartacci, A M, Castello, R, Cerrada-Canales, M, Cesaroni, F, Chang, Y H, Chaturvedi, U K, Chemarin, M, Chen, A, Chen, C, Chen, G M, Chen, H F, Chen, H S, Chen, M, Chen, W Y, Chiefari, G, Chien, C Y, Choi, M T, Chung, S, Civinini, C, Clare, I, Clare, R, Coan, T E, Cohn, H O, Coignet, G, Colino, N, Contin, A, Cui, X T, Cui, X Y, Dai, T S, D'Alessandro, R, De Asmundis, R, Degré, A, Deiters, K, Dénes, E, Denes, P, De Notaristefani, F, Dhina, M, DiBitonto, Daryl, Diemoz, M, Dimitrov, H R, Dionisi, C, Djambazov, L, Dova, M T, Drago, E, Duchesneau, D, Duinker, P, Durán, I, Easo, S, El-Mamouni, H, Engler, A, Eppling, F J, Erné, F C, Extermann, Pierre, Fabbretti, R, Fabre, M, Falciano, S, Fan, S J, Fackler, O, Fay, J, Felcini, Marta, Ferguson, T, Fernández, D, Fernández, G, Ferroni, F, Fesefeldt, H S, Fiandrini, E, Field, J, Filthaut, Frank, Finocchiaro, G, Fisher, P H, Forconi, G, Foreman, T, Fredj, L, Freudenreich, Klaus, Friebel, W, Fukushima, M, Gailloud, M, Galaktionov, Yu, Gallo, E, Ganguli, S N, García-Abia, P, Gelé, D, Gentile, S, Goldfarb, S, Gong, Z F, González, E, Gougas, Andreas, Goujon, D, Gratta, Giorgio, Grünewald, M W, Gu, C, Guanziroli, M, Guo, J K, Gupta, V K, Gurtu, A, Gustafson, H R, Gutay, L J, Hangarter, K, Hartmann, B, Hasan, A, Hauschildt, D, He, C F, He, J T, Hebbeker, T, Hebert, M, Herten, U, Hervé, A, Hilgers, K, Hofer, H, Hoorani, H, Hu, G, Hu, G Q, Ille, B, Ilyas, M M, Innocente, Vincenzo, Janssen, H, Jézéquel, S, Jin, B N, Jones, L W, Kasser, A, Khan, R A, Kamyshkov, Yu A, Kapinos, P, Kapustinsky, J S, Karyotakis, Yu, Kaur, M, Khokhar, S, Kienzle-Focacci, M N, Kim, J K, Kim, S C, Kim, Y G, Kinnison, W W, Kirkby, A, Kirkby, D, Kirsch, S, Kittel, E W, Klimentov, A, Klöckner, R, König, A C, Koffeman, E, Kornadt, O, Koutsenko, V F, Koulbardis, A, Krämer, R W, Kramer, T, Krastev, V R, Krenz, W, Krivshich, A G, Kuijten, H, Kumar, K S, Kunin, A, Landi, G, Lanske, D, Lanzano, S, Lebdev, A, Lebrun, P, Lecomte, P, Lecoq, P, Le Coultre, P, Lee, D M, Leedom, I D, Leggett, C, Le Goff, J M, Leiste, R, Lenti, M, Leonardi, E, Leytens, X, Li Chuan, Li, H T, Li, P J, Liao, J Y, Lin, W T, Lin, Z Y, Linde, Frank L, Lindemann, B, Lista, L, Liu, Y, Lohmann, W, Longo, E, Lü, Y S, Lubbers, J M, Lübelsmeyer, K, Luci, C, Luckey, D, Ludovici, L, Luminari, L, Lustermann, W, Ma, J M, Ma Wen Gan, MacDermott, M, Malhotra, P K, Malik, R, Malinin, A, Maña, C, Maolinbay, M, Marchesini, P A, Marion, F, Marin, A, Martin, J P, Martínez-Laso, L, Marzano, F, Massaro, G G G, Mazumdar, K, McBride, P, McMahon, T, McNally, D, Merk, M, Merola, L, Meschini, M, Metzger, W J, Mi, Y, Mills, G B, Mir, Y, Mirabelli, G, Mnich, J, Möller, M, Monteleoni, B, Morand, R, Morganti, S, Moulai, N E, Mount, R, Müller, S, Nadtochy, A, Nagy, E, Napolitano, M, Nessi-Tedaldi, F, Newman, H, Neyer, C, Niaz, M A, Nippe, A, Nowak, H, Organtini, G, Pandoulas, D, Paoletti, S, Paolucci, P, Pascale, G, Passaleva, G, Patricelli, S, Paul, T, Pauluzzi, M, Paus, C, Pauss, Felicitas, Pei, Y J, Pensotti, S, Perret-Gallix, D, Perrier, J, Pevsner, A, Piccolo, D, Pieri, M, Piroué, P A, Plasil, F, Plyaskin, V, Pohl, M, Pozhidaev, V, Postema, H, Qi, Z D, Qian, J M, Qureshi, K N, Raghavan, R, Rahal-Callot, G, Rancoita, P G, Rattaggi, M, Raven, G, Razis, P A, Read, K, Ren, D, Ren, Z, Rescigno, M, Reucroft, S, Ricker, A, Riemann, S, Riemers, W, Riles, K, Rind, O, Rizvi, H A, Rodríguez-Calonge, F J, Roe, B P, Röhner, M, Romero, L, Rosier-Lees, S, Rosmalen, R, Rosselet, P, Van Rossum, W, Roth, S, Rubbia, André, Rubio, Juan Antonio, Rykaczewski, H, Sachwitz, M, Salicio, J, Salicio, J M, Sanders, G S, Santocchia, A, Sarakinos, M E, Sartorelli, G, Sassowsky, M, Sauvage, G, Shchegelskii, V, Schmitz, D, Schmitz, P, Schneegans, M, Schopper, Herwig Franz, Schotanus, D J, Shotkin, S, Schreiber, H J, Shukla, J, Schulte, R, Schulte, S, Schultze, K, Schwenke, J, Schwering, G, Sciacca, C, Scott, I, Sehgal, R, Seiler, P G, Sens, Johannes C, Servoli, L, Sheer, I, Shen, D Z, Shevchenko, S, Shi, X R, Shumilov, E, Shoutko, V, Son, D, Sopczak, André, Spartiotis, C, Spickermann, T, Spillantini, P, Starosta, R, Steuer, M, Stickland, D P, Sticozzi, F, Stone, H, Strauch, K, Stringfellow, D G, Sudhakar, K, Sultanov, G G, Sun, L Z, Susinno, G F, Suter, H, Swain, J D, Syed, A A, Tang, X W, Taylor, L, Terzi, G, Ting, Samuel C C, Ting, S M, Tonutti, M, Tonwar, S C, Tóth, J, Tsaregorodtsev, A Yu, Tsipolitis, G, Tully, C, Tung, K L, Ulbricht, J, Urbàn, L, Uwer, U, Valente, E, Van de Walle, R T, Vetlitskii, I, Viertel, Gert M, Vikas, P, Vikas, U, Vivargent, M, Vogel, H, Vogt, H, Vorobev, I, Vorobyov, A A, Vuilleumier, L, Wadhwa, M, Wallraff, W, Wang, C, Wang, C R, Wang, G H, Wang, X L, Wang, Y F, Wang, Z M, Warner, C, Weber, A, Weber, J, Weill, R, Wenaus, T J, Wenninger, J, White, M, Willmott, C, Wittgenstein, F, Wright, D, Wu, S X, Wynhoff, S, Wyslouch, B, Xie, Y Y, Xu, J G, Xu, Z Z, Xue, Z L, Yan, D S, Yang, B Z, Yang, C G, Yang, G, Ye, C H, Ye, J B, Ye, Q, Yeh, S C, Yin, Z W, You, J M, Yunus, N, Yzerman, M, Zaccardelli, C, Zemp, P, Zeng, M, Zeng, Y, Zhang, D H, Zhang, Z P, Zhou, B, Zhou, G J, Zhou, J F, Zhu, R Y, Zichichi, Antonino, Van der Zwaan, B C CEnlace del recurso
Publicado 1993
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993
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994“…We prove a lower bound for the modulus of the amplitude for a two-body process at large scattering angles. This is based on the interplay of the analyticity of the amplitude and the positivity properties of its absorptive part. …”
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995por Chien, Yang-Ting, Rahn, Rudi, Schrijnder van Velzen, Solange, Shao, Ding Yu, Waalewijn, Wouter J., Wu, Bin“…Furthermore, the azimuthal angle distribution is minimally changed when determined using only charged particle tracks, which offer superior angular resolution for precise measurements. …”
Publicado 2020
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996
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997por Cè, Marco, José, Teseo San, Gérardin, Antoine, Meyer, Harvey B., Miura, Kohtaroh, Ottnad, Konstantin, Risch, Andreas, Wilhelm, Jonas, Wittig, Hartmut“…The electromagnetic coupling $\alpha$ and the electroweak mixing angle $\theta_{\mathrm{W}}$ are parameters of the Standard Model (SM) that enter precision SM tests and play a fundamental rôle in beyond SM physics searches.Their values are energy dependent, and non-perturbative hadronic contributions are the main source of uncertainty to the theoretical knowledge of the running with energy.We present a lattice study of the leading hadronic contribution to the running of $\alpha$ and $\sin^2\theta_{\mathrm{W}}$.The former is related to the hadronic vacuum polarization (HVP) function of electromagnetic currents, and the latter to the HVP mixing of the electromagnetic current with the vector part of the weak neutral currents.We use the time-momentum representation (TMR) method to compute the HVP on the lattice, estimating both connected and disconnected contributions on $N_{\mathrm{f}}=2+1$ non-perturbatively $O(a)$-improved Wilson fermions ensembles from the Coordinated Lattice Simulations (CLS) initiative.The use of different lattice spacings and quark masses allows us to reliably extrapolate the results to the physical point.…”
Publicado 2019
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998por Kwan, Tony“…Differential cross section measurements are shown as well as the latest effective weak mixing angle results from the two collaborations. This talk also presents the prospects of future Drell-Yan analyses at the High-Luminosity LHC.…”
Publicado 2021
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999por The LHCb Collaboration“…A combination of measurements sensitive to the $CP$ violation angle $\gamma$ of the Cabibbo--Kobayashi--Maskawa (CKM) unitarity triangle and to the charm mixing parameters that describe oscillations between $D^0$ and $\overline{D}^0$ mesons is performed. …”
Publicado 2021
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1000por San José, Teseo, Cè, Marco, Gérardin, Antoine, von Hippel, Georg, Meyer, Harvey B., Miura, Kohtaroh, Ottnad, Konstantin, Risch, Andreas, Wilhelm, Jonas, Wittig, Hartmut“…We give results for the hadronic contribution to the QED running coupling $\alpha(Q^2)$ and weak mixing angle $\sin^2\theta_W(Q^2)$ in the space-like energy region $(0, 7]~\text{GeV}^2$ with a total relative uncertainty of $2\%$ at energies $Q^2 \ll 1~\text{GeV}^2$, and $1\%$ at $Q^2 > 1~\text{GeV}^2$.…”
Publicado 2021
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