On the Relation of the LHeC and the LHC

Autor: Fernandez, J. L. Abelleira, Adolphsen, C., Adzic, P., Akay, A. N., Aksakal, H., Albacete, J. L., Allanach, B., Alekhin, S., Allport, P., Andreev, V., Appleby, R. B., Arikan, E., Armesto, N., Azuelos, G., Bai, M., Barber, D., Bartels, J., Behnke, O., Behr, J., Belyaev, A. S., Ben-Zvi, I., Bernard, N., Bertolucci, S., Bettoni, S., Biswal, S., Blümlein, J., Böttcher, H., Bogacz, A., Bracco, C., Bracinik, J., Brandt, G., Braun, H., Brodsky, S., Brüning, O., Bulyak, E., Buniatyan, A., Burkhardt, H., Cakir, I. T., Cakir, O., Calaga, R., Caldwell, A., Cetinkaya, V., Chekelian, V., Ciapala, E., Ciftci, R., Ciftci, A. K., Cole, B. A., Collins, J. C., Dadoun, O., Dainton, J., Roeck, A. De., d'Enterria, D., DiNezza, P., D'Onofrio, M., Dudarev, A., Eide, A., Enberg, R., Eroglu, E., Eskola, K. J., Favart, L., Fitterer, M., Forte, S., Gaddi, A., Gambino, P., Morales, H. García, Gehrmann, T., Gladkikh, P., Glasman, C., Glazov, A., Godbole, R., Goddard, B., Greenshaw, T., Guffanti, A., Guzey, V., Gwenlan, C., Han, T., Hao, Y., Haug, F., Herr, W., Hervé, A., Holzer, B. J., Ishitsuka, M., Jacquet, M., Jeanneret, B., Jensen, E., Jimenez, J. M., Jowett, J. M., Jung, H., Karadeniz, H., Kayran, D., Kilic, A., Kimura, K., Klees, R., Klein, M., Klein, U., Kluge, T., Kocak, F., Korostelev, M., Kosmicki, A., Kostka, P., Kowalski, H., Kraemer, M., Kramer, G., Kuchler, D., Kuze, M., Lappi, T., Laycock, P., Levichev, E., Levonian, S., Litvinenko, V. N., Lombardi, A., Maeda, J., Marquet, C., Mellado, B., Mess, K. H., Milanese, A., Milhano, J. G., Moch, S., Morozov, I. I., Muttoni, Y., Myers, S., Nandi, S., Nergiz, Z., Newman, P. R., Omori, T., Osborne, J., Paoloni, E., Papaphilippou, Y., Pascaud, C., Paukkunen, H., Perez, E., Pieloni, T., Pilicer, E., Pire, B., Placakyte, R., Polini, A., Ptitsyn, V., Pupkov, Y., Radescu, V., Raychaudhuri, S., Rinolfi, L., Rizvi, E., Rohini, R., Rojo, J., Russenschuck, S., Sahin, M., Salgado, C. A., Sampei, K., Sassot, R., Sauvan, E., Schaefer, M., Schneekloth, U., Schörner-Sadenius, T., Schulte, D., Senol, A., Seryi, A., Sievers, P., Skrinsky, A. N., Smith, W., South, D., Spiesberger, H., Stasto, A. M., Strikman, M., Sullivan, M., Sultansoy, S., Sun, Y. P., Surrow, B., Szymanowski, L., Taels, P., Tapan, I., Tasci, T., Tassi, E., Kate, H. Ten., Terron, J., Thiesen, H., Thompson, L., Thompson, P., Tokushuku, K., García, R. Tomás, Tommasini, D., Trbojevic, D., Tsoupas, N., Tuckmantel, J., Turkoz, S., Trinh, T. N., Tywoniuk, K., Unel, G., Ullrich, T., Urakawa, J., VanMechelen, P., Variola, A., Veness, R., Vivoli, A., Vobly, P., Wagner, J., Wallny, R., Wallon, S., Watt, G., Weiss, C., Wiedemann, U. A., Wienands, U., Willeke, F., Xiao, B. -W., Yakimenko, V., Zarnecki, A. F., Zhang, Z., Zimmermann, F., Zlebcik, R., Zomer, F.

The present note relies on the recently published conceptual design report of the LHeC and extends the first contribution to the European strategy debate in emphasising the role of the LHeC to complement and complete the high luminosity LHC programme

Externí odkaz: http://arxiv.org/abs/1211.5102

A Large Hadron Electron Collider at CERN: Report on the Physics and Design Concepts for Machine and Detector

Autor: Fernandez, J. L. Abelleira, Adolphsen, C., Akay, A. N., Aksakal, H., Albacete, J. L., Alekhin, S., Allport, P., Andreev, V., Appleby, R. B., Arikan, E., Armesto, N., Azuelos, G., Bai, M., Barber, D., Bartels, J., Behnke, O., Behr, J., Belyaev, A. S., Ben-Zvi, I., Bernard, N., Bertolucci, S., Bettoni, S., Biswal, S., Blümlein, J., Böttcher, H., Bogacz, A., Bracco, C., Brandt, G., Braun, H., Brodsky, S., Brüning, O., Bulyak, E., Buniatyan, A., Burkhardt, H., Cakir, I. T., Cakir, O., Calaga, R., Cetinkaya, V., Ciapala, E., Ciftci, R., Ciftci, A. K., Cole, B. A., Collins, J. C., Dadoun, O., Dainton, J., Roeck, A. De., d'Enterria, D., Dudarev, A., Eide, A., Enberg, R., Eroglu, E., Eskola, K. J., Favart, L., Fitterer, M., Forte, S., Gaddi, A., Gambino, P., Morales, H. García, Gehrmann, T., Gladkikh, P., Glasman, C., Godbole, R., Goddard, B., Greenshaw, T., Guffanti, A., Guzey, V., Gwenlan, C., Han, T., Hao, Y., Haug, F., Herr, W., Hervé, A., Holzer, B. J., Ishitsuka, M., Jacquet, M., Jeanneret, B., Jimenez, J. M., Jowett, J. M., Jung, H., Karadeniz, H., Kayran, D., Kilic, A., Kimura, K., Klein, M., Klein, U., Kluge, T., Kocak, F., Korostelev, M., Kosmicki, A., Kostka, P., Kowalski, H., Kramer, G., Kuchler, D., Kuze, M., Lappi, T., Laycock, P., Levichev, E., Levonian, S., Litvinenko, V. N., Lombardi, A., Maeda, J., Marquet, C., Maxfield, S. J., Mellado, B., Mess, K. H., Milanese, A., Moch, S., Morozov, I. I., Muttoni, Y., Myers, S., Nandi, S., Nergiz, Z., Newman, P. R., Omori, T., Osborne, J., Paoloni, E., Papaphilippou, Y., Pascaud, C., Paukkunen, H., Perez, E., Pieloni, T., Pilicer, E., Pire, B., Placakyte, R., Polini, A., Ptitsyn, V., Pupkov, Y., Radescu, V., Raychaudhuri, S., Rinolfi, L., Rohini, R., Rojo, J., Russenschuck, S., Sahin, M., Salgado, C. A., Sampei, K., Sassot, R., Sauvan, E., Schneekloth, U., Schörner-Sadenius, T., Schulte, D., Senol, A., Seryi, A., Sievers, P., Skrinsky, A. N., Smith, W., Spiesberger, H., Stasto, A. M., Strikman, M., Sullivan, M., Sultansoy, S., Sun, Y. P., Surrow, B., Szymanowski, L., Taels, P., Tapan, I., Tasci, A. T., Tassi, E., Kate, H. Ten., Terron, J., Thiesen, H., Thompson, L., Tokushuku, K., García, R. Tomás, Tommasini, D., Trbojevic, D., Tsoupas, N., Tuckmantel, J., Turkoz, S., Trinh, T. N., Tywoniuk, K., Unel, G., Urakawa, J., VanMechelen, P., Variola, A., Veness, R., Vivoli, A., Vobly, P., Wagner, J., Wallny, R., Wallon, S., Watt, G., Weiss, C., Wiedemann, U. A., Wienands, U., Willeke, F., Xiao, B. -W., Yakimenko, V., Zarnecki, A. F., Zhang, Z., Zimmermann, F., Zlebcik, R., Zomer, F.

The physics programme and the design are described of a new collider for particle and nuclear physics, the Large Hadron Electron Collider (LHeC), in which a newly built electron beam of 60 GeV, up to possibly 140 GeV, energy collides with the intense

Externí odkaz: http://arxiv.org/abs/1206.2913

LHC and Dark Matter Signals of Improved Naturalness

Autor: Enberg, R., Fox, P. J., Hall, L. J., Papaioannou, A. Y., Papucci, M.

Publikováno v: JHEP 0711:014,2007

The Standard Model Higgs suffers from the hierarchy problem, typically implying new states within the reach of the LHC. If the Higgs is very heavy (~500 GeV) the states that cutoff the quadratic divergence may be beyond the reach of the LHC. However,

Externí odkaz: http://arxiv.org/abs/0706.0918

Hard Pomeron in exclusive meson production at ILC

Autor: Enberg, R., Pire, B., Szymanowski, L., Wallon, S.

Publikováno v: Acta Phys.Polon. B37 (2006) 847-852

We calculate the exclusive process gamma* gamma* ->rho rho at high energy. The Born order estimate and the leading (LLA) and next to leading order (NLLA) BFKL resummation effects show the feasibility of experimental detection in a quite large range o

Externí odkaz: http://arxiv.org/abs/hep-ph/0511144

BFKL resummation effects in gamma* gamma* --> rho rho

Autor: Enberg, R., Pire, B., Szymanowski, L., Wallon, S.

Publikováno v: Eur.Phys.J.C45:759-769,2006; Erratum-ibid.C51:1015,2007

We calculate the leading order BFKL amplitude for the exclusive diffractive process \gamma*_L(Q1^2) \gamma*_L(Q2^2) \to \rho_L^0 \rho_L^0 in the forward direction, which can be studied in future high energy e^+e^- linear colliders. The resummation ef

Externí odkaz: http://arxiv.org/abs/hep-ph/0508134