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4001“…An analysis of the b \rightarrow s\gamma is given in supergravity grand unification using the framework of the radiative breaking of the electro-weak symmetry under three separate sets of constraints:1) neutralino relic density does not overclose the universe,2)p-stability constraint, and 3) the combined constraints of p-stability and COBE data .For case 1 it is found that the CLEO II data on the branching ratio already imposes very strong further constraints on dark matter analyses. For case2 the branching ratio is found to lie in the range (1.5-6.3)x10^{-4} and thus the data does not at present significantly limit the analyses with p-stability constraint. …”
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4002
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4003
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4004por Palanque-Delabrouille, Nathalie“…Because it gives access to small scales (tens of Mpc), it allows one to probe the impact of neutrino mass and warm dark matter on the clustering of matter.<br /> I will briefly recall the major goals of SDSS and introduce the quasar survey where the Lyman-alpha forest is measured. …”
Publicado 2019
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4005“…We use such measurements to look for ultralight dark matter (ULDM), which is predicted to form dense cores (“solitons”) in the centre of galactic halos. …”
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4006por Banerjee, D., Burtsev, V.E., Chumakov, A.G., Cooke, D., Crivelli, P., Depero, E., Dermenev, A.V., Donskov, S.V., Dusaev, R.R., Enik, T., Charitonidis, N., Feshchenko, A., Frolov, V.N., Gardikiotis, A., Gerassimov, S.G., Gninenko, S.N., Hösgen, M., Jeckel, M., Karneyeu, A.E., Kekelidze, G., Ketzer, B., Kirpichnikov, D.V., Kirsanov, M.M., Konorov, I.V., Kovalenko, S.G., Kramarenko, V.A., Kravchuk, L.V., Krasnikov, N.V., Kuleshov, S.V., Lyubovitskij, V.E., Lysan, V., Matveev, V.A., Mikhailov, Yu V., Molina Bueno, L., Peshekhonov, D.V., Polyakov, V.A., Radics, B., Rojas, R., Rubbia, A., Samoylenko, V.D., Shchukin, D., Tikhomirov, V.O., Tlisova, I., Tlisov, D.A., Toropin, A.N., Trifonov, A. Yu., Vasilishin, B.I., Vasquez Arenas, G., Volkov, P.V., Volkov, V.Yu., Ulloa, P.“…The most stringent constraints on the A′ mixing strength with photons and the parameter space for the scalar and fermionic dark matter in the mass range ≲0.2 GeV are derived, thus demonstrating the power of the active beam dump approach for the dark matter search.…”
Publicado 2019
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4007
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4008“…Dark matter is a frequently discussed topic in contemporary particle physics. …”
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4009por El-Neaj, Yousef Abou, Alpigiani, Cristiano, Amairi-Pyka, Sana, Araújo, Henrique, Balaž, Antun, Bassi, Angelo, Bathe-Peters, Lars, Battelier, Baptiste, Belić, Aleksandar, Bentine, Elliot, Bernabeu, José, Bertoldi, Andrea, Bingham, Robert, Blas, Diego, Bolpasi, Vasiliki, Bongs, Kai, Bose, Sougato, Bouyer, Philippe, Bowcock, Themis, Bowden, William, Burrage, Clare, Calmet, Xavier, Canuel, Benjamin, Caramete, Laurentiu-Ioan, Carroll, Andrew, Cella, Giancarlo, Charmandaris, Vassilis, Chattopadhyay, Swapan, Chen, Xuzong, Chiofalo, Maria Luisa, Coleman, Jonathon, Cotter, Joseph, Cui, Yanou, Derevianko, Andrei, De Roeck, Albert, Djordjevic, Goran, Dornan, Peter, Doser, Michael, Drougkakis, Ioannis, Dunningham, Jacob, Dutan, Ioana, Easo, Sajan, Elertas, Gedminas, Ellis, John, El Sawy, Mai, Fassi, Farida, Felea, Daniel, Feng, Chen-Hao, Flack, Robert, Foot, Chris, Fuentes, Ivette, Gaaloul, Naceur, Gauguet, Alexandre, Geiger, Remi, Gibson, Valerie, Giudice, Gian, Goldwin, Jon, Grachov, Oleg, Graham, Peter W., Grasso, Dario, van der Grinten, Maurits, Gündogan, Mustafa, Haehnelt, Martin G., Harte, Tiffany, Hees, Aurelien, Hobson, Richard, Holst, Bodil, Hogan, Jason, Kasevich, Mark, Kavanagh, Bradley J., von Klitzing, Wolf, Kovachy, Tim, Krikler, Benjamin, Krutzik, Markus, Lewicki, Marek, Lien, Yu-Hung, Liu, Miaoyuan, Luciano, Giuseppe Gaetano, Magnon, Alain, Mahmoud, Mohammed, Malik, Sarah, McCabe, Christopher, Mitchell, Jeremiah, Pahl, Julia, Pal, Debapriya, Pandey, Saurabh, Papazoglou, Dimitris, Paternostro, Mauro, Penning, Bjoern, Peters, Achim, Prevedelli, Marco, Puthiya-Veettil, Vishnupriya, Quenby, John, Rasel, Ernst, Ravenhall, Sean, Rejeb Sfar, Haifa, Ringwood, Jack, Roura, Albert, Sabulsky, Dylan, Sameed, Muhammed, Sauer, Ben, Schäffer, Stefan Alaric, Schiller, Stephan, Schkolnik, Vladimir, Schlippert, Dennis, Schubert, Christian, Shayeghi, Armin, Shipsey, Ian, Signorini, Carla, Soares-Santos, Marcelle, Sorrentino, Fiodor, Singh, Yajpal, Sumner, Timothy, Tassis, Konstantinos, Tentindo, Silvia, Tino, Guglielmo Maria, Tinsley, Jonathan N., Unwin, James, Valenzuela, Tristan, Vasilakis, Georgios, Vaskonen, Ville, Vogt, Christian, Webber-Date, Alex, e} Wenzlawski, Andŕ, Windpassinger, Patrick, Woltmann, Marian, Holynski, Michael, Yazgan, Efe, Zhan, Ming-Sheng, Zou, Xinhao, Zupan, Jure“…This interdisciplinary experiment, called Atomic Experiment for Dark Matter and Gravity Exploration (AEDGE), will also complement other planned searches for dark matter, and exploit synergies with other gravitational wave detectors. …”
Publicado 2019
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4010
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4011por Dreyer, Etienne“…The LHC offers the best prospects for direct production of WIMP Dark Matter (DM) and gauge bosons arising from a dark sector beyond the Standard Model (SM). …”
Publicado 2019
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4012por Whalen, Kathleen“…The Large Hadron Collider (LHC) has a rich programme of searches for dark matter, encompassing a wide range of models and signatures. …”
Publicado 2019
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4013
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4014
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4015por Abe, K., Akutsu, R., Ali, A., Alt, C., Andreopoulos, C., Anthony, L., Antonova, M., Aoki, S., Ariga, A., Asada, Y., Ashida, Y., Atkin, E.T., Awataguchi, Y., Ban, S., Barbi, M., Barker, G.J., Barr, G., Barry, C., Batkiewicz-Kwasniak, M., Beloshapkin, A., Bench, F., Berardi, V., Berkman, S., Berns, L., Bhadra, S., Bienstock, S., Blondel, A., Bolognesi, S., Bourguille, B., Boyd, S.B., Brailsford, D., Bravar, A., Bravo Berguño, D., Bronner, C., Bubak, A., Buizza Avanzini, M., Calcutt, J., Campbell, T., Cao, S., Cartwright, S.L., Catanesi, M.G., Cervera, A., Chappell, A., Checchia, C., Cherdack, D., Chikuma, N., Christodoulou, G., Coleman, J., Collazuol, G., Cook, L., Coplowe, D., Cudd, A., Dabrowska, A., De Rosa, G., Dealtry, T., Denner, P.F., Dennis, S.R., Densham, C., Di Lodovico, F., Dokania, N., Dolan, S., Drapier, O., Dumarchez, J., Dunne, P., Eklund, L., Emery-Schrenk, S., Ereditato, A., Fernandez, P., Feusels, T., Finch, A.J., Fiorentini, G.A., Fiorillo, G., Francois, C., Friend, M., Fujii, Y., Fujita, R., Fukuda, D., Fukuda, R., Fukuda, Y., Gameil, K., Giganti, C., Golan, T., Gonin, M., Gorin, A., Guigue, M., Hadley, D.R., Haigh, J.T., Hamacher-Baumann, P., Hartz, M., Hasegawa, T., Hastings, N.C., Hayashino, T., Hayato, Y., Hiramoto, A., Hogan, M., Holeczek, J., Hong Van, N.T., Iacob, F., Ichikawa, A.K., Ikeda, M., Ishida, T., Ishii, T., Ishitsuka, M., Iwamoto, K., Izmaylov, A., Jamieson, B., Jenkins, S.J., Jesús-Valls, C., Jiang, M., Johnson, S., Jonsson, P., Jung, C.K., Kabirnezhad, M., Kaboth, A.C., Kajita, T., Kakuno, H., Kameda, J., Karlen, D., Kasetti, S.P., Kataoka, Y., Katori, T., Kato, Y., Kearns, E., Khabibullin, M., Khotjantsev, A., Kikawa, T., Kim, H., Kim, J., King, S., Kisiel, J., Knight, A., Knox, A., Kobayashi, T., Koch, L., Koga, T., Konaka, A., Kormos, L.L., Koshio, Y., Kowalik, K., Kubo, H., Kudenko, Y., Kukita, N., Kuribayashi, S., Kurjata, R., Kutter, T., Kuze, M., Labarga, L., Lagoda, J., Lamoureux, M., Laveder, M., Lawe, M., Licciardi, M., Lindner, T., Litchfield, R.P., Liu, S.L., Li, X., Longhin, A., Ludovici, L., Lu, X., Lux, T., Machado, L.N., Magaletti, L., Mahn, K., Malek, M., Manly, S., Maret, L., Marino, A.D., Martin, J.F., Maruyama, T., Matsubara, T., Matsushita, K., Matveev, V., Mavrokoridis, K., Mazzucato, E., McCarthy, M., McCauley, N., McFarland, K.S., McGrew, C., Mefodiev, A., Metelko, C., Mezzetto, M., Minamino, A., Mineev, O., Mine, S., Miura, M., Molina Bueno, L., Moriyama, S., Morrison, J., Mueller, Th.A., Munteanu, L., Murphy, S., Nagai, Y., Nakadaira, T., Nakahata, M., Nakajima, Y., Nakamura, A., Nakamura, K.G., Nakamura, K., Nakayama, S., Nakaya, T., Nakayoshi, K., Nantais, C., Ngoc, T.V., Niewczas, K., Nishikawa, K., Nishimura, Y., Nonnenmacher, T.S., Nova, F., Novella, P., Nowak, J., Nugent, J.C., O'Keeffe, H.M., O'Sullivan, L., Odagawa, T., Okumura, K., Okusawa, T., Oser, S.M., Owen, R.A., Oyama, Y., Palladino, V., Palomino, J.L., Paolone, V., Parker, W.C., Paudyal, P., Pavin, M., Payne, D., Penn, G.C., Pickering, L., Pidcott, C., Pintaudi, G., Pinzon Guerra, E.S., Pistillo, C., Popov, B., Porwit, K., Posiadala-Zezula, M., Pritchard, A., Quilain, B., Radermacher, T., Radicioni, E., Radics, B., Ratoff, P.N., Reinherz-Aronis, E., Riccio, C., Rondio, E., Roth, S., Rubbia, A., Ruggeri, A.C., Rychter, A., Sakashita, K., Sánchez, F., Schloesser, C.M., Scholberg, K., Schwehr, J., Scott, M., Seiya, Y., Sekiguchi, T., Sekiya, H., Sgalaberna, D., Shah, R., Shaikhiev, A., Shaker, F., Shaykina, A., Shiozawa, M., Shorrock, W., Shvartsman, A., Smirnov, A., Smy, M., Sobczyk, J.T., Sobel, H., Soler, F.J.P., Sonoda, Y., Steinmann, J., Suvorov, S., Suzuki, A., Suzuki, S.Y., Suzuki, Y., Sztuc, A.A., Tada, M., Tajima, M., Takeda, A., Takeuchi, Y., Tanaka, H.K., Tanaka, H.A., Tanaka, S., Thompson, L.F., Toki, W., Touramanis, C., Tsui, K.M., Tsukamoto, T., Tzanov, M., Uchida, Y., Uno, W., Vagins, M., Valder, S., Vallari, Z., Vargas, D., Vasseur, G., Vilela, C., Vinning, W.G.S., Vladisavljevic, T., Volkov, V.V., Wachala, T., Walker, J., Walsh, J.G., Wang, Y., Wark, D., Wascko, M.O., Weber, A., Wendell, R., Wilking, M.J., Wilkinson, C., Wilson, J.R., Wilson, R.J., Wood, K., Wret, C., Yamada, Y., Yamamoto, K., Yanagisawa, C., Yang, G., Yano, T., Yasutome, K., Yen, S., Yershov, N., Yokoyama, M., Yoshida, T., Yu, M., Zalewska, A., Zalipska, J., Zaremba, K., Zarnecki, G., Ziembicki, M., Zimmerman, E.D., Zito, M., Zsoldos, S., Zykova, A.“…It has been shown that CP violation in leptons could generate the matter–antimatter disparity through a process called leptogenesis4. …”
Publicado 2019
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4016“…We study scenarios where loop processes give the dominant contributions to dark matter decay or annihilation despite the presence of tree-level channels. …”
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4017
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4018por Pani, Priscilla“…This talk aims to provide an overview of the theoretical framework, the search strategies and the current status of the results of Dark Matter searches at the LHC. The focus will be restricted to mediator-based Dark Matter models (non-SUSY). …”
Publicado 2019
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4019“…The derived Yukawa-type potential for dark matter is independent of the spins of dark matter, so are the resulting Sommerfeld effects for the dark matter self-scattering. …”
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4020“…We describe a new mechanism of dark matter production. If dark matter particles acquire mass during a first order phase transition, it is energetically unfavorable for them to enter the expanding bubbles. …”
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