- Altheimer, A;
- Arce, A;
- Asquith, L;
- Backus Mayes, J;
- Kuutmann, E Bergeaas;
- Berger, J;
- Bjergaard, D;
- Bryngemark, L;
- Buckley, A;
- Butterworth, J;
- Cacciari, M;
- Campanelli, M;
- Carli, T;
- Chala, M;
- Chapleau, B;
- Chen, C;
- Chou, JP;
- Cornelissen, Th;
- Curtin, D;
- Dasgupta, M;
- Davison, A;
- de Almeida Dias, F;
- de Cosa, A;
- de Roeck, A;
- Debenedetti, C;
- Doglioni, C;
- Ellis, SD;
- Fassi, F;
- Ferrando, J;
- Fleischmann, S;
- Freytsis, M;
- Gonzalez Silva, ML;
- de la Hoz, S Gonzalez;
- Guescini, F;
- Han, Z;
- Hook, A;
- Hornig, A;
- Izaguirre, E;
- Jankowiak, M;
- Juknevich, J;
- Kaci, M;
- Kar, D;
- Kasieczka, G;
- Kogler, R;
- Larkoski, A;
- Loch, P;
- Lopez Mateos, D;
- Marzani, S;
- Masetti, L;
- Mateu, V;
- Miller, DW;
- Mishra, K;
- Nef, P;
- Nordstrom, K;
- Oliver Garcia, E;
- Penwell, J;
- Pilot, J;
- Plehn, T;
- Rappoccio, S;
- Rizzi, A;
- Rodrigo, G;
- Safonov, A;
- Salam, GP;
- Salt, J;
- Schaetzel, S;
- Schioppa, M;
- Schmidt, A;
- Scholtz, J;
- Schwartzman, A;
- Schwartz, MD;
- Segala, M;
- Son, M;
- Soyez, G;
- Spannowsky, M;
- Stewart, I;
- Strom, D;
- Swiatlowski, M;
- Sanchez Martinez, V;
- Takeuchi, M;
- Thaler, J;
- Thompson, EN;
- Tran, NV;
- Vermilion, C;
- Villaplana, M;
- Vos, M;
- Wacker, J;
- Walsh, J
This report of the BOOST2012 workshop presents the results of four working groups that studied key aspects of jet substructure. We discuss the potential of first-principle QCD calculations to yield a precise description of the substructure of jets and study the accuracy of state-of-the-art Monte Carlo tools. Limitations of the experiments’ ability to resolve substructure are evaluated, with a focus on the impact of additional (pile-up) proton proton collisions on jet substructure performance in future LHC operating scenarios. A final section summarizes the lessons learnt from jet substructure analyses in searches for new physics in the production of boosted top quarks.
