Particle theory

Very high-energy gamma-ray follow-up program using neutrino triggers from IceCube

Journal of Instrumentation Institute of Physics 11:11 (2016) P11009

Authors:

MG Aartsen, K Abraham, M Ackermann, Subir Sarkar

Abstract:

We describe and report the status of a neutrino-triggered program in IceCube that generates real-time alerts for gamma-ray follow-up observations by atmospheric-Cherenkov telescopes (MAGIC and VERITAS). While IceCube is capable of monitoring the whole sky continuously, high-energy gamma-ray telescopes have restricted fields of view and in general are unlikely to be observing a potential neutrino-flaring source at the time such neutrinos are recorded. The use of neutrino-triggered alerts thus aims at increasing the availability of simultaneous multi-messenger data during potential neutrino flaring activity, which can increase the discovery potential and constrain the phenomenological interpretation of the high-energy emission of selected source classes (e.g. blazars). The requirements of a fast and stable online analysis of potential neutrino signals and its operation are presented, along with first results of the program operating between 14 March 2012 and 31 December 2015.

Handbook of LHC Higgs Cross Sections: 4. Deciphering the Nature of the Higgs Sector

(2016)

Authors:

D de Florian, C Grojean, F Maltoni, C Mariotti, A Nikitenko, M Pieri, P Savard, M Schumacher, R Tanaka, R Aggleton, M Ahmad, B Allanach, C Anastasiou, W Astill, S Badger, M Badziak, J Baglio, E Bagnaschi, A Ballestrero, A Banfi, D Barducci, M Beckingham, C Becot, G Bélanger, J Bellm, N Belyaev, FU Bernlochner, C Beskidt, A Biekötter, F Bishara, W Bizon, NE Bomark, M Bonvini, S Borowka, V Bortolotto, S Boselli, FJ Botella, R Boughezal, GC Branco, J Brehmer, L Brenner, S Bressler, I Brivio, A Broggio, H Brun, G Buchalla, CD Burgard, A Calandri, L Caminada, R Caminal Armadans, F Campanario, J Campbell, F Caola, CM Carloni Calame, S Carrazza, A Carvalho, M Casolino, O Cata, A Celis, F Cerutti, N Chanon, M Chen, X Chen, B Chokoufé Nejad, N Christensen, M Ciuchini, R Contino, T Corbett, R Costa, D Curtin, M Dall'Osso, A David, S Dawson, J de Blas, W de Boer, P de Castro Manzano, C Degrande, RL Delgado, F Demartin, A Denner, B Di Micco, R Di Nardo, S Dittmaier, A Dobado, T Dorigo, FA Dreyer, M Dührssen, C Duhr, F Dulat, K Ecker, K Ellis, U Ellwanger, C Englert, D Espriu, A Falkowski, L Fayard, R Feger, G Ferrera, A Ferroglia, N Fidanza, T Figy, M Flechl, D Fontes, S Forte, P Francavilla, E Franco, R Frederix, A Freitas, FF Freitas, F Frensch, S Frixione, B Fuks, E Furlan, S Gadatsch, J Gao, Y Gao, MV Garzelli, T Gehrmann, R Gerosa, M Ghezzi, D Ghosh, S Gieseke, D Gillberg, GF Giudice, EWN Glover, F Goertz, D Gonçalves, J Gonzalez-Fraile, M Gorbahn, S Gori, CA Gottardo, M Gouzevitch, P Govoni, D Gray, M Grazzini, N Greiner, A Greljo, J Grigo, AV Gritsan, R Gröber, S Guindon, HE Haber, C Han, T Han, R Harlander, MA Harrendorf, HB Hartanto, C Hays, S Heinemeyer, G Heinrich, M Herrero, F Herzog, B Hespel, V Hirschi, S Hoeche, S Honeywell, SJ Huber, C Hugonie, J Huston, A Ilnicka, G Isidori, B Jäger, M Jaquier, SP Jones, A Juste, S Kallweit, A Kaluza, A Kardos, A Karlberg, Z Kassabov, N Kauer, DI Kazakov, M Kerner, W Kilian, F Kling, K Köneke, R Kogler, R Konoplich, S Kortner, S Kraml, C Krause, F Krauss, M Krawczyk, A Kulesza, S Kuttimalai, R Lane, A Lazopoulos, G Lee, P Lenzi, IM Lewis, Y Li, S Liebler, J Lindert, X Liu, Z Liu, FJ Llanes-Estrada, HE Logan, D Lopez-Val, I Low, G Luisoni, P Maierhöfer, E Maina, B Mansoulié, H Mantler, M Mantoani, AC Marini, VI Martinez Outschoorn, S Marzani, D Marzocca, A Massironi, K Mawatari, J Mazzitelli, A McCarn, B Mellado, K Melnikov, SB Menari, L Merlo, C Meyer, P Milenovic, K Mimasu, S Mishima, B Mistlberger, S-O Moch, A Mohammadi, PF Monni, G Montagna, M Moreno Llácer, N Moretti, S Moretti, L Motyka, A Mück, M Mühlleitner, S Munir, P Musella, P Nadolsky, D Napoletano, M Nebot, C Neu, M Neubert, R Nevzorov, O Nicrosini, J Nielsen, K Nikolopoulos, JM No, C O'Brien, T Ohl, C Oleari, T Orimoto, D Pagani, CE Pandini, A Papaefstathiou, AS Papanastasiou, G Passarino, BD Pecjak, M Pelliccioni, G Perez, L Perrozzi, F Petriello, G Petrucciani, E Pianori, F Piccinini, M Pierini, A Pilkington, S Plätzer, T Plehn, R Podskubka, CT Potter, S Pozzorini, K Prokofiev, A Pukhov, I Puljak, M Queitsch-Maitland, J Quevillon, D Rathlev, M Rauch, E Re, MN Rebelo, D Rebuzzi, L Reina, C Reuschle, J Reuter, M Riembau, F Riva, A Rizzi, T Robens, R Röntsch, J Rojo, JC Romão, N Rompotis, J Roskes, R Roth, GP Salam, R Salerno, MOP Sampaio, R Santos, V Sanz, JJ Sanz-Cillero, H Sargsyan, U Sarica, P Schichtel, J Schlenk, T Schmidt, C Schmitt, M Schönherr, U Schubert, M Schulze, S Sekula, M Sekulla, E Shabalina, HS Shao, J Shelton, CH Shepherd-Themistocleous, SY Shim, F Siegert, A Signer, JP Silva, L Silvestrini, M Sjodahl, P Slavich, M Slawinska, L Soffi, M Spannowsky, C Speckner, DM Sperka, M Spira, O Stål, F Staub, T Stebel, T Stefaniak, M Steinhauser, IW Stewart, MJ Strassler, J Streicher, DM Strom, S Su, X Sun, FJ Tackmann, K Tackmann, AM Teixeira, R Teixeira de Lima, V Theeuwes, R Thorne, D Tommasini, P Torrielli, M Tosi, F Tramontano, Z Trócsányi, M Trott, I Tsinikos, M Ubiali, P Vanlaer, W Verkerke, A Vicini, L Viliani, E Vryonidou, D Wackeroth, CEM Wagner, J Wang, S Wayand, G Weiglein, C Weiss, M Wiesemann, C Williams, J Winter, D Winterbottom, R Wolf, M Xiao, LL Yang, R Yohay, SPY Yuen, G Zanderighi, M Zaro, D Zeppenfeld, R Ziegler, T Zirke, J Zupan

Marginal evidence for cosmic acceleration from Type Ia supernovae

Scientific Reports Springer Nature 6:1 (2016) 35596

Authors:

JT Nielsen, A Guffanti, Subir Sarkar

Abstract:

The ‘standard’ model of cosmology is founded on the basis that the expansion rate of the universe is accelerating at present — as was inferred originally from the Hubble diagram of Type Ia supernovae. There exists now a much bigger database of supernovae so we can perform rigorous statistical tests to check whether these ‘standardisable candles’ indeed indicate cosmic acceleration. Taking account of the empirical procedure by which corrections are made to their absolute magnitudes to allow for the varying shape of the light curve and extinction by dust, we find, rather surprisingly, that the data are still quite consistent with a constant rate of expansion.

At the Frontier of Precision QCD in the LHC Era

(2016)

Closed flux tubes in D = 2 + 1 SU(N ) gauge theories: dynamics and effective string description

Journal of High Energy Physics Springer Verlag 2016:10 (2016)

Authors:

A Athenodorou, Michael Teper

Abstract:

We extend our earlier calculations of the spectrum of closed flux tubes in SU(N) gauge theories in 2 + 1 dimensions, with a focus on questions raised by recent theoretical progress on the effective string action of long flux tubes and the world-sheet action for flux tubes of moderate lengths. Our new calculations in SU(4) and SU(8) provide evidence that the leading O(1/lγ) non-universal correction to the flux tube ground state energy does indeed have a power γ ≥ 7. We perform a study in SU(2), where we can traverse the length at which the Nambu-Goto ground state becomes tachyonic, to obtain an all-N view of the spectrum. Our comparison of the k = 2 flux tube excitation energies in SU(4) and SU(6) suggests that the massive world sheet excitation associated with the k = 2 binding has a scale that knows about the group and hence the theory in the bulk, and we comment on the potential implications of world sheet massive modes for the bulk spectrum. We provide a quantitative analysis of the surprising (near-)orthogonality of flux tubes carrying flux in different SU(N) representations, which implies that their screening by gluons is highly suppressed even at small N.