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  1. 101
    por Chih Kwan Chen
    Publicado 1977
    “…Both unpolarised and polarised pp and pp collisions are discussed with emphasis on possible investigation at Fermilab and CERN. (17 refs).…”
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    Lepton pair production and the modified Drell-Yan mechanism in high energy unpolarised and polarized pp and pp collisions
  2. 102
    “…Dehydrins (DHNs) as a member of late-embryogenesis-abundant (LEA) proteins are involved in plant abiotic stress tolerance. Two dehydrins PpDHNA and PpDHNC were previously characterized from the moss Physcomitrella patens, which has been suggested to be an ideal model plant to study stress tolerance due to its adaptability to extreme environment. …”
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    Physcomitrella Patens Dehydrins (PpDHNA and PpDHNC) Confer Salinity and Drought Tolerance to Transgenic Arabidopsis Plants
  3. 103
    “…A series of propylene-co-styrenic monomer copolymers were synthesized using the Friedel–Crafts alkylation reaction between chlorinated PP and substituted benzene, and the effects of these copolymers on a PP/PS (80/20) blend were investigated by using the impact test, morphology observation, thermo- and dynamic mechanical analysis, and rheology measurements. …”
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    Synthesis of Propylene-co-Styrenic Monomer Copolymers via Arylation of Chlorinated PP and Their Compatibilization for PP/PS Blend
  4. 104
    “…Two upper bounds are obtained for different classes of 4-PP coefficients. For a 4-PP [Formula: see text] , [Formula: see text] , the upper bound of 28 is obtained when the coefficient [Formula: see text] of the equivalent 4-permutation polynomials (PPs) fulfills [Formula: see text] or when [Formula: see text] and [Formula: see text] , [Formula: see text] , for any values of the other coefficients. …”
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    Lengths for Which Fourth Degree PP Interleavers Lead to Weaker Performances Compared to Quadratic and Cubic PP Interleavers
  5. 105
    por Hoermann, Bernhard, Köhn, Maja
    Publicado 2021
    “…The removal of the phosphate is regulated by pSer/pThr-specific phosphatases with the two most prominent ones being PP1 and PP2A. For this family, recent advances brought forward a more complex mechanism for p-site selection. …”
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    Evolutionary crossroads of cell signaling: PP1 and PP2A substrate sites in intrinsically disordered regions
  6. 106
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    Studies of two-particle correlation in rapidity space in (pp) collisions at (\Sqrt s)$_{pp}$ = 30, 44, and 62 GeV
  7. 107
    por V.M.~Abazov, V.M., Abbott, B., Acharya, B. S., Adams, M., Adams, T., Agnew, J. P., Alexeev, G. D., Alkhazov, G., Alton, A., Antchev, G., Askew, a., Aspell, P., Atanassov, I., Atkins, S., Augsten, K., Aushev, V., Aushev, Y., Avati, V., Avila, C., Badaud, F., Baechler, J., Bagby, L., Baldenegro Barrera, C., Baldin, B., Bandurin, D. V., Banerjee, S., Barberis, E., Baringer, P., Bartlett, J. F., Bassler, U., Bazterra, V., Bean, A., Begalli, M., Bellantoni, L., Berardi, V., Beri, S. B., Bernardi, G., Bernhard, R., Berretti, M., Bertram, I., Besancon, M., Beuselinck, R., Bhat, P. C., Bhatia, S., Bhatnagar, V., Blazey, G., Blessing, S., Bloom, K., Boehnlein, A., Boline, D., Boos, E. E., Borchsh, V., Borissov, G., Borysova, M., Bossini, E., Bottigli, U., Bozzo, M., Brandt, A., Brandt, O., Brochmann, M., Brock, R., Bross, A., Brown, D., Bu, X. B., Buehler, M., Buescher, V., Vunichev, V., Burdin, S., Burkhardt, H., Buszello, C. P., Cafagna, F. S., Camacho-Perez, E., Casey, B. C. K., Castilla-Valdez, H., Catanesi, M. G., Caughron, S., Chakrabarti$, S., Chan, K. M., Chandra, A., Chapon, E., Chen, G., Cho, S. W., Choi, S., Choudhary, B., Cihangir, S., Claes, D., Clutter, J., Cooke, M., Cooper, W. E., Corcoran, M., Couderc, F., Cousinou, M. C., Csanad, M, Csorgo, T, Cuth, J., Cutts, D., Das, A., Davies, G., Deile, M., de Jong, S. B., De La Cruz Burelo, E., De Leonardis, F., Deliot, F., Demina, R., Denisov, D., Denisov, S. P., Desai, S., Deterre, C., DeVaughan, K., Diehl, H. T., Diesburg, M., Ding, P. F., Dominguez, A., Doubek, M., Drutskoy, A., Druzhkin, D., Dubey, A., Dudko, L. V., Duperrin, A., Dutt, S., Eads, M., Edmunds, D., Eggert, K., Ellison, J., Elvira, V. D., Enari, Y., Eremin, V., Evans, H., Evdokimov, A., Evdokimov, V. N., Faure, A., Feng, L., Ferbel, T., Ferro, F., Fiedler, F., Fiergolski, A., Filthaut, F., Fisher, W., Fisk, H. E., Forthomme, L., Fortner, M., Fox, H., Franc, J., Fuess, S., Garbincius, P. H., Garcia, F., Garcia-Bellido, A., Garcia-Gonzalez, J. A., Gavrilov, V., Geng, W., Georgiev, V., Gerber, C. E., Gershtein, Y., Giani, S., Ginther, G., Gogota, O., Golovanov, G., Grannis, P. D., Greder, S., Greenlee, H., Grenier, G., Gris, P., Grivaz, J. F., Grohsjean, A., Gruenendahl, S., Gruenewald, M. W., Grzanka, L., Guillemin, T., Gutierrez, G., Gutierrez, P., Haley, J., Hammerbauer, J., Han, L., Harder, K., Harel, A., Hauptman, J. M., Hays, J., Head, T., Hebbeker, T., Hedin, D., Hegab, H., Heinson, A. P., Heintz, U., Hensel, C., Heredia De La Cruz, I., Herner, K., Hesketh, G., Hildreth, M. D., Hirosky, R., Hoang, T., Hobbs, J. D., Hoeneisen, B., Hogan, J., Hohlfeld, M., Holzbauer, J. L., Howley, I., Hubacek, Z., Hynek, V., Iashvili, I., Ilchenko, Y., Illingworth, R., Isidori, T., Ito, A. S., Ivanchenko, V., Jabeen, S., Jaffre, M., Janda, M., Jayasinghe, A., Jeong, M. S., Jesik, R., Jiang, P., Johns, K., Johnson, E., Johnson, M., Jonckheere, A., Jonsson, P., Joshi, J., Jung, A. W., Juste, A., Kajfasz, E., Karev, A., Karmanov, D., Kaspar, J., Katsanos, I., Kaur, M., Kaynak, B., Kehoe, R., Kermiche, S., Khalatyan, N., Khanov, A., Kharchilava, A., Kharzheev, Y. N., Kiselevich, I., Kohli, J. M., Kopal, J., Kozelov, A. V., Kraus, J., Kumar, A., Kundrat, V., Kupco, A, Kurca, T., Kuzmin, V. A., Lami, S., Lammers, S., Latino, G., Lebrun, P., Lee, H. S., Lee, S. W., Lee, W. M., Le, X., Lellouch, J., Li, D., Li, H., Li, L., Li, Q. Z., Lim, J. K., Lincoln, D., Lindsey, C., Linhart, R., Linnemann, J., Lipaev, V. V., Lipton, R., Liu, H., Liu, Y., Lobodenko, A., Lokajicek, M., Lokajicek, M. V., Lopes de Sa, R., Losurdo, L., Lucas~Rodriguez, F., Luna-Garcia, R., Lyon, A. L., Maciel, A. K. A., Macri, M., Madar, R., Magana-Villalba, R, Malawski, M., Malik, S., Malyshev, V. L., Mansour, J., Martinez-Ortega, J., McCarthy, R., McGivern, C. L., Meijer, M. M., Melnitchouk, A, Menezes, D., Mercadante, P. G., Merkin, M., Meyer, A., Meyer, J., Miconi, F., Minafra, N., Minutoli$, S., Mondal, N. K., Mulhearn, M., Naaranoja, T., Nagy, E., Narain, M., Nayyar, R., Neal, H. A., Negret, J. P., Nemes, F., Neustroev, P., Nguyen, H. T., Niewiadomski, H., Novak, T., Nunnemann, T., Oliveri, E., Oljemark, F., Orduna, J., Oriunno, M., Osman, N., Osterberg, K., Pal, A., Palazzi, P., Parashar, N., Parihar, V., Park, S. K., Partridge, R., Parua, N., Pasechnik, R., Passaro, V., Patwa, A., Penning, B., Perfilov, M., Peroutka, Z., Peters, Y., Petridis, K., Petrillo, G., Petroff, P., Pleier, M. A., Podstavkov, V. M., Popov, A. V., Prewitt, M., Price, D., Prochazka, J., Prokopenko, N., Qian, J., Quadt, A., Quinn, B., Quinto, M., Raben, T. G., Radermacher, E., Radicioni, E., Ratoff, P. N., Ravotti, F., Razumov, I., Ripp-Baudot, I., Rizatdinova, F., Robutti, E., Rominsky, M., Ross, A., Royon, C., Rubinov, P., Ruchti, R., Ruggiero, G., Saarikko, H., Sajot, G., Samoylenko, V. D., Sanchez-Hernandez, A., Sanders, M. P., Santos, A. S., Savage, G., Savitskyi, M., Sawyer, L., Scanlon, T., Schamberger, R. D., Scheglov, Y., Schellman, H., Schott, M., Schwanenberger, C., Schwienhorst, R., Scribano, A., Sekaric, J., Severini, H., Shabalina, E., Shary, V., Shaw, S., Shchukin, A. A., Shkola, O., Simak, V., Siroky, J., Skubic, P., Slattery, P, Smajek, J., Snoeys, W., Snow, G. R., Snow, J., Snyder, S., Soeldner-Rembold, S., Sonnenschein, L., Soustruznik, K., Stark, J., Stefaniuk, N., Stefanovitch, R., Ster, A., Stoyanova, D. A., Strauss, M., Svoisky, P., Szanyi, I., Sziklai, J., Taylor, C., Tcherniaev, E., Titov, M., Tokmenin, V. V., Tsai, Y. T., Tsybychev, D., Tuchming, B., Tully, C., Turini, N., Urban, O., Uvarov, L., Uvarov, S., Uzunyan, S., Vacek, V., Van Kooten, R., van Leeuwen, W. M., Varelas, N., Varnes, E. W., Vasilyev, I. A., Vavroch, O., Verkheev, A. Y., Vertogradov, L. S., Verzocchi, M., Vesterinen, M., Vilanova, D., Vokac, P., Wahl, H. D., Wang, C., Wang, M. H. L. S., Warchol, J., Watts, G., Wayne, M., Weichert, J., Welti, J., Welty-Rieger, L., Williams, J., Williams, M. R. J., Wilson, G. W., Wobisch, M., Wood, D. R., Wyatt, T. R., Xie, Y., Yamada, R., Yang, S., Yasuda, T., Yatsunenko, Y. A., Ye, W., Ye, Z., Yin, H., Yip, K., Youn, S. W., Yu, J. M., Zennamo, J., Zhao, T. G., Zhou, B., Zhu, J., Zich, J., Zielinski, K., Zielinski, M., Zieminska, D., Zivkovic, L.
    Publicado 2020
    “…We describe a quantitative analysis comparing the p anti-p elastic cross section as measured by the D0 Collaboration at a center-of-mass energy of 1.96 TeV to that in pp collisions as measured by the TOTEM Collaboration at 2.76, 7, 8, and 13 TeV using a mainly model-independent approach. …”
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    Comparison of pp and pp ̄ differential elastic cross sections and observation of the exchange of a colorless C-odd gluonic compound
  8. 108
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    The TRIUMF optically-pumped polarized H$^{-}$ ion source, TRI-PP-95-19, TRI-PP-95-73
  9. 109
    “…In fact, the PP1/PP2A inhibitor calyculin prevented cofilin dephosphorylation and restored motility. …”
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    ALDH1L1 Inhibits Cell Motility Via Dephosphorylation of Cofilin by PP1 and PP2A
  10. 110
    “…Research and therapeutic targeting of the phosphoserine/threonine phosphatases PP1 and PP2A is hindered by the lack of selective inhibitors. …”
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    Synthesis of Highly Selective Submicromolar Microcystin‐Based Inhibitors of Protein Phosphatase (PP)2A over PP1
  11. 111
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    Corrigendum: Physcomitrella Patens Dehydrins (PpDHNA and PpDHNC) Confer Salinity and Drought Tolerance to Transgenic Arabidopsis Plants
  12. 112
    “…In order to achieve both high toughness and favorable dielectric properties of polypropylene materials, a styrene–butadiene–styrene block copolymer (SEBS) was employed as a toughening filler, in addition to a copolymerized polypropylene grafted by maleic anhydride (cPP-g-MAH) as a compatibilization modifier, to develop a novel isotactic polypropylene (iPP) composite (cPP-g-MAH/iPP/SEBS composite) with significantly improved direct-current (DC) dielectric performance and tenacity. …”
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    Improved DC Dielectric Performance of cPP-g-MAH/iPP/SEBS Composite with Chemical Graft Modification
  13. 113
    “…Nanocomposites based on isotactic polypropylene (iPP) and mesoporous silica particles of either MCM-41 or SBA-15 were prepared by melt extrusion. …”
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    Variation of Ultimate Properties in Extruded iPP-Mesoporous Silica Nanocomposites by Effect of iPP Confinement within the Mesostructures
  14. 114
    Publicado 2007
    “…"More than 40 GridPP members descended on CERN last month for the latest WLCG collaboration workshop. …”
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    GridPP gathers in Geneva for WLCG workshop
  15. 115
    por Jones, G
    Publicado 1978
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    pp$\rigtharrow$d$\Pi$ near Threshold
  16. 116
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    pp Interactions at 10 GeV/c
  17. 117
    “…Prospects for strangeness production in pp collisions at the Large Hadron Collider (LHC) are discussed within the statistical model. …”
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    Prospects for Strangeness Production in pp Collisions at LHC
  18. 118
    por Goulianos, Konstantin
    Publicado 2010
    “…The single-diffractive and total pp cross sections at the LHC are predicted in a phenomenological approach that obeys all unitarity constraints. …”
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    Diffractive and Total pp Cross Sections at LHC
  19. 119
    por Jacob, Maurice René Michel
    Publicado 1981
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    alpha.alpha and pp interactions at ISR energies
  20. 120
    por Andreazza, A
    Publicado 2010
    “…The ATLAS detector has collected more than 11 pb−1 of data on pp collisions at sqrt(s) = 7 TeV, at the LHC. The detector status and performance on reconstruction of the different probes of the interaction, jets, leptons and vector bosons, will be described, with some highlights of the earliest experimental results.…”
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    ATLAS results from pp collisions at the LHC
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