Your search keyword '"Flacke T"' showing total 31 results

1. Exploring extended Higgs sectors via pair production at the LHC

Author

Cacciapaglia, G., Flacke, T., Kunkel, M., Porod, W., and Schwarze, L.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

Higgs sectors extended by electroweakly charged scalars can be explored by scalar pair production at the LHC. We consider a fermiophobic scenario, with decays into a pair of gauge bosons, and a fermiophilic one, with decays into top and bottom quarks. After establishing the current bounds on simplified models, we focus on an SU(5)/SO(5) composite Higgs model. This first exploration demonstrates the need for dedicated searches at current and future colliders., Comment: 30 pages, 14 figures

Published

2022

2. Les Houches 2019 Physics at TeV Colliders: New Physics Working Group Report

Author

Brooijmans, G., Buckley, A., Caron, S., Falkowski, A., Fuks, B., Gilbert, A., Murray, W. J., Nardecchia, M., No, J. M., Torre, R., You, T., Della Porta, G. Zevi, Alguero, G., Araz, J. Y., Banerjee, S., Bélanger, G., Berger-Hryn'ova, T., Bernigaud, J., Bharucha, A., Buttazzo, D., Butterworth, J. M., Cacciapaglia, G., Coccaro, A., Corpe, L., Desai, N., De Simone, A., Dutta, J., Farbin, A., Fichet, S., Flacke, T., Ganguly, S., Gascon-Shotkin, S., Gonzalo, T., Goudelis, A., Gras, P., Gupta, R. S., Habedank, M., Heisig, J., Hendriks, L., Jain, S., Jueid, A., Kar, D., Kraml, S., Kvellestad, A., Lane, K. D., Langford, J., Leinweber, A., Lesauvage, A., Lessa, A., Mamuzic, J., Marzocca, D., Merényi, E., Mjallal, A., Mohan, K. A., Morandini, A., Moreau, G., Mutzel, S., Nellist, C., Otten, S., Pani, P., Panizzi, L., Pierini, M., Polesello, G., Porod, W., Prosper, H. B., Pukhov, A., Quevillon, J., Raklev, A., Reyes-González, H., Ruiz, R., de Austri, R. Ruiz, Schouwenberg, J., Sekmen, S., Sengupta, D., Smith, C., Son, M., Sperka, D., Stienen, B., Tobioka, K., van Beekveld, M., Venturini, E., Vignaroli, N., Vilalta, R., Waltenberger, W., Wardle, N., Watt, G., White, M., Williamson, S. L., Yallup, D., and Zurita, J.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

This report presents the activities of the `New Physics' working group for the `Physics at TeV Colliders' workshop (Les Houches, France, 10--28 June, 2019). These activities include studies of direct searches for new physics, approaches to exploit published data to constrain new physics, as well as the development of tools to further facilitate these investigations. Benefits of machine learning for both the search for new physics and the interpretation of these searches are also presented., Comment: Proceedings of the BSM Session of the Les Houches 2019 workshop, 227 pages

Published

2020

3. Gluon-Photon Signatures for color octet at the LHC (and beyond)

Author

Cacciapaglia, G., Deandrea, A., Flacke, T., and Iyer, A. M.

Subjects

High Energy Physics - Phenomenology

Abstract

We consider a color octet scalar particle and its exotic decay in the channel gluon-$\gamma$ using an effective Lagrangian description for its strong and electromagnetic interactions. Such a state is present in many extensions of the Standard Model, and in particular in composite Higgs models with top partial compositeness, where couplings to photons arise via the Wess-Zumino-Witten term. We find that final states with one or two photons allow for a better reach at the LHC, even for small branching ratios. Masses up to $1.2$ TeV can be probed at the HL-LHC by use of all final states. Finally, we estimate the sensitivity of the hadronic FCC., Comment: 26 pages, 13 figures, 7 tables, 2 appendices; v2: Discussion in Sec. 2.2 extended, table 2 added, typos fixed, version published in JHEP

Published

2020

4. Light scalars in composite Higgs models

Author

Cacciapaglia, G., Ferretti, G., Flacke, T., and Serôdio, H.

Subjects

High Energy Physics - Phenomenology

Abstract

A composite Higgs boson is likely to be accompanied by additional light states generated by the same dynamics. This expectation is substantiated when realising the composite Higgs mechanism by an underlying gauge theory. We review the dynamics of such objects, which may well be the first sign of compositeness at colliders. We also update our previous analysis of the bounds from LHC searches to the latest results, and discuss the projected reach of the High-Luminosity run., Comment: 28 pages, 9 figures. Accepted for publication by Frontiers in Physics, section High-Energy and Astroparticle Physics V2: Typo in eq (5) corrected. Results unchanged

Published

2019

5. Beyond the Standard Model Physics at the HL-LHC and HE-LHC

Author

Vidal, X. Cid, D'Onofrio, M., Fox, P. J., Torre, R., Ulmer, K. A., Aboubrahim, A., Albert, A., Alimena, J., Allanach, B. C., Alpigiani, C., Altakach, M., Amoroso, S., Anders, J. K., Araz, J. Y., Arbey, A., Azzi, P., Babounikau, I., Baer, H., Baker, M. J., Barducci, D., Barger, V., Baron, O., Navarro, L. Barranco, Battaglia, M., Bay, A., Bhatia, D., Biswas, S., Bloch, D., Bogavac, D., Borschensky, C., Bugge, M. K., Buttazzo, D., Cacciapaglia, G., Cadamuro, L., Calandri, A., Camargo, D. A., Canepa, A., Carminati, L., Carrá, S., Montoya, C. A. Carrillo, De Oliveira, A. Carvalho Antunes, Castillo, F. L., Cavaliere, V., Cavalli, D., Cecchi, C., Celis, A., Cerri, A., Chahal, G. S., Chakraborty, A., Chekanov, S. V., Cheng, H. J., Childers, J. T., Cirelli, M., Colegrove, O., Corcella, G., Corradi, M., Costa, M. J., Covarelli, R., Dang, N. P., Deandrea, A., De Curtis, S., De la Torre, H., Rose, L. Delle, Del Re, D., Demela, A., Demers, S., Dermisek, R., De Santo, A., Deshpande, K., Dey, B., Donini, J., Duncan, A. K., Dutta, V., Escobar, C., Fanó, L., Ferretti, G., Fiaschi, J., Fischer, O., Flacke, T., Frangipane, E. D., Frank, M., Frattari, G., Frizzell, D., Fuchs, E., Fuks, B., Gabrielli, E., Gainer, J., Gao, Y., Navarro, J. E. García, Genest, M. H., Giagu, S., Giudice, G. F., Goh, J., Gouzevitch, M., Govoni, P., Greljo, A., Grohsjean, A., Gurrola, A., Gustavino, G., Guyot, C., Gwilliam, C. B., Ha, S., Haisch, U., Haller, J., Han, T., Hayden, D., Heikinheimo, M., Heintz, U., Helsens, C., Hoepfner, K., Hogan, J. M., Huitu, K., Ilten, P., Ippolito, V., Ismail, A., Iyer, A. M., Jain, Sa., Jamin, D. O., Jeanty, L., Jezo, T., Johns, W., Kalogeropoulos, A., Karancsi, J., Kats, Y., Keller, H., Khanov, A., Kieseler, J., Kim, B., Kim, M. S., Kim, Y. G., Klasen, M., Klimek, M. D., Kogler, R., Komaragiri, J. R., Krämer, M., Kubota, S., Kulesza, A. K., Kulkarni, S., Lari, T., Ledovskoy, A., Lee, G. R., Lee, L., Lee, S. W., Leonardi, R., Les, R., Lewis, I. M., Li, Q., Li, T., Lim, I. T., Lim, S. H., Lin, K., Liu, Z., Long, K., Low, M., Lunghi, E., Madaffari, D., Mahmoudi, F., Majumder, D., Malvezzi, S., Mangano, M. L., Manoni, E., Marcano, X., Mariotti, A., Marjanovic, M., Marlow, D., Camalich, J. Martin, Cuevas, P. Matorras, McCullough, M., McDonald, E. F., Guisao, J. Mejia, Mele, B., Meloni, F., Melzer-Pellmann, I. -A., Merlassino, C., Meyer, A. B., Michielin, E., Miller, A. J., Mittnacht, L., Mondal, S., Moretti, S., Mukhopadhyay, S., Nachman, B. P., Nam, K., Narain, M., Nardecchia, M., Nath, P., Navarro-González, J., Nisati, A., Nitta, T., Noel, D. L., Nojiri, M. M., Ochoa-Ricoux, J. P., Oide, H., Ojeda, M. L., Griso, S. Pagan, Cortezon, E. Palencia, Panella, O., Pani, P., Panizzi, L., Panwar, L., Park, C. B., Pazzini, J., Pedro, K., Perego, M. M., Perrozzi, L., Petersen, B. A., Pierce, A., Polesello, G., Policicchio, A., Potter, C. J., Pralavorio, P., Presilla, M., Proudfoot, J., Queiroz, F. S., Ramirez-Sanchez, G., Redigolo, D., Reimers, A., Resconi, S., Rimoldi, M., Vergara, J. C. Rivera, Rizzo, T., Rogan, C., Romeo, F., Rosten, R., Ruiz, R., Ruiz-Alvarez, J., Iglesias, J. A. Sabater, Samani, B. Safarzadeh, Sagir, S., Saito, M., Saito, S., Sala, F., Salazar, C., Savin, A., Sawada, R., Sawant, S., Schienbein, I., Schlaffer, M., Schneider, B., Schuler, S. C., Sebastiani, C. D., Sekmen, S., Selvaggi, M., Sengupta, D., Serce, H., Serodio, H., Sestini, L., Shakya, B., Haghi, B. Shams Es, Sheldon, P., Shin, S., Simonetto, F., Soffi, L., Spannowsky, M., Stupak, J., Sullivan, M. J., Sunder, M., Takahashi, Y., Tata, X., Teagle, H., Terashi, K., Tesi, A., Thamm, A., Tobioka, K., Tornambe, P., Trovato, F., Tsiakkouri, D., Ungaro, F. C., Urbano, A., Usai, E., Vanegas, N., Vaslin, L., Sierra, C. Vázquez, Vivarelli, I., Milosavljevic, M. Vranjes, Waltari, H., Wang, R., Wang, X., Weber, M. S., Weiland, C., Wielers, M., Williams, J. M., Willocq, S., Xu, D., Yagyu, K., Yazgan, E., Ye, R., Yoo, H. D., You, T., Yu, F., Della Porta, G. Zevi, Zhang, W., Zhu, C., Zhuang, X., Zobec, J., Zupan, J., and Zurita, J.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

This is the third out of five chapters of the final report [1] of the Workshop on Physics at HL-LHC, and perspectives on HE-LHC [2]. It is devoted to the study of the potential, in the search for Beyond the Standard Model (BSM) physics, of the High Luminosity (HL) phase of the LHC, defined as $3~\mathrm{ab}^{-1}$ of data taken at a centre-of-mass energy of $14~\mathrm{TeV}$, and of a possible future upgrade, the High Energy (HE) LHC, defined as $15~\mathrm{ab}^{-1}$ of data at a centre-of-mass energy of $27~\mathrm{TeV}$. We consider a large variety of new physics models, both in a simplified model fashion and in a more model-dependent one. A long list of contributions from the theory and experimental (ATLAS, CMS, LHCb) communities have been collected and merged together to give a complete, wide, and consistent view of future prospects for BSM physics at the considered colliders. On top of the usual standard candles, such as supersymmetric simplified models and resonances, considered for the evaluation of future collider potentials, this report contains results on dark matter and dark sectors, long lived particles, leptoquarks, sterile neutrinos, axion-like particles, heavy scalars, vector-like quarks, and more. Particular attention is placed, especially in the study of the HL-LHC prospects, to the detector upgrades, the assessment of the future systematic uncertainties, and new experimental techniques. The general conclusion is that the HL-LHC, on top of allowing to extend the present LHC mass and coupling reach by $20-50\%$ on most new physics scenarios, will also be able to constrain, and potentially discover, new physics that is presently unconstrained. Moreover, compared to the HL-LHC, the reach in most observables will generally more than double at the HE-LHC, which may represent a good candidate future facility for a final test of TeV-scale new physics., Comment: Report from Working Group 3 on the Physics of the HL-LHC, and Perspectives at the HE-LHC; v2: final version updated with the latest contributions and summaries; 239 pages + refs; v3: typos and character misprint in Fig. 7.2 fixed; v4: added one missing author

Published

2018

6. Les Houches 2017: Physics at TeV Colliders New Physics Working Group Report

Author

Brooijmans, G., Dolan, M., Gori, S., Maltoni, F., McCullough, M., Musella, P., Perrozzi, L., Richardson, P., Riva, F., Angelescu, A., Banerjee, S., Barducci, D., Bélanger, G., Bhattacherjee, B., Borsato, M., Buckley, A., Butterworth, J. M., Cacciapaglia, G., Cai, H., Carvalho, A., Chakraborty, A., Cottin, G., Deandrea, A., de Blas, J., Desai, N., Endo, M., Ezroura, N., Facini, G., Fichet, S., Finco, L., Flacke, T., Fuks, B., Gardner, P., Gascon-Shotkin, S., Goudelis, A., Gras, P., Grellscheid, D., Gröber, R., Guadagnoli, D., Haisch, U., Harz, J., Heisig, J., Herrmann, B., Hewett, J., Hryn'ova, T., Kamenik, J. F., Kraml, S., Laa, U., Lane, K., Lessa, A., Liebler, S., Lohwasser, K., Lombardo, D. M., Majumder, D., Malinauskas, A., Mattelaer, O., Mimasu, K., Moreau, G., Mühlleitner, M., Nelson, A. E., No, J. M., Nojiri, M. M., Pani, P., Panizzi, L., Park, M., Polesello, G., Porod, W., Pritchett, L., Prosper, H. B., Pukhov, A., Quevillon, J., Rizzo, T., Roloff, P., Rzehak, H., Sekmen, S., Sengupta, D., Spira, M., Vernieri, C., Walker, D. G. E., Yallup, D., Zaldivar, B., Zhang, S., and Zurita, J.

Subjects

High Energy Physics - Phenomenology

Abstract

We present the activities of the `New Physics' working group for the `Physics at TeV Colliders' workshop (Les Houches, France, 5--23 June, 2017). Our report includes new physics studies connected with the Higgs boson and its properties, direct search strategies, reinterpretation of the LHC results in the building of viable models and new computational tool developments., Comment: Les Houches 2017 proceedings, 224 pages, many figures

Published

2018

7. Beyond the Standard Model Physics at the HL-LHC and HE-LHC

Author

Vidal, X Cid, D'Onofrio, M, Fox, PJ, Torre, R, Ulmer, KA, Aboubrahim, A, Albert, A, Alimena, J, Allanach, BC, Alpigiani, C, Altakach, M, Amoroso, S, Anders, JK, Araz, JY, Arbey, A, Azzi, P, Babounikau, I, Baer, H, Baker, MJ, Barducci, D, Barger, V, Baron, O, Navarro, L Barranco, Battaglia, M, Bay, A, Bhatia, D, Biswas, S, Bloch, D, Bogavac, D, Borschensky, C, Bugge, MK, Buttazzo, D, Cacciapaglia, G, Cadamuro, L, Calandri, A, Camargo, DA, Canepa, A, Carminati, L, Carrá, S, Montoya, CA Carrillo, Oliveira, A Carvalho Antunes De, Castillo, FL, Cavaliere, V, Cavalli, D, Cecchi, C, Celis, A, Cerri, A, Chahal, GS, Chakraborty, A, Chekanov, SV, Cheng, HJ, Childers, JT, Cirelli, M, Colegrove, O, Corcella, G, Corradi, M, Costa, MJ, Covarelli, R, Dang, NP, Deandrea, A, Curtis, S De, Torre, H De la, Rose, L Delle, Re, D Del, Demela, A, Demers, S, Dermisek, R, Santo, A De, Deshpande, K, Dey, B, Donini, J, Duncan, AK, Dutta, V, Escobar, C, Fanó, L, Ferretti, G, Fiaschi, J, Fischer, O, Flacke, T, Frangipane, ED, Frank, M, Frattari, G, Frizzell, D, Fuchs, E, Fuks, B, Gabrielli, E, Gainer, J, Gao, Y, Navarro, JE García, Genest, MH, Giagu, S, Giudice, GF, Goh, J, Gouzevitch, M, Govoni, P, Greljo, A, Grohsjean, A, Gurrola, A, Gustavino, G, and Guyot, C

Subjects

hep-ph, hep-ex

Abstract

This is the third out of five chapters of the final report [1] of theWorkshop on Physics at HL-LHC, and perspectives on HE-LHC [2]. It is devoted tothe study of the potential, in the search for Beyond the Standard Model (BSM)physics, of the High Luminosity (HL) phase of the LHC, defined as$3~\mathrm{ab}^{-1}$ of data taken at a centre-of-mass energy of$14~\mathrm{TeV}$, and of a possible future upgrade, the High Energy (HE) LHC,defined as $15~\mathrm{ab}^{-1}$ of data at a centre-of-mass energy of$27~\mathrm{TeV}$. We consider a large variety of new physics models, both in asimplified model fashion and in a more model-dependent one. A long list ofcontributions from the theory and experimental (ATLAS, CMS, LHCb) communitieshave been collected and merged together to give a complete, wide, andconsistent view of future prospects for BSM physics at the consideredcolliders. On top of the usual standard candles, such as supersymmetricsimplified models and resonances, considered for the evaluation of futurecollider potentials, this report contains results on dark matter and darksectors, long lived particles, leptoquarks, sterile neutrinos, axion-likeparticles, heavy scalars, vector-like quarks, and more. Particular attention isplaced, especially in the study of the HL-LHC prospects, to the detectorupgrades, the assessment of the future systematic uncertainties, and newexperimental techniques. The general conclusion is that the HL-LHC, on top ofallowing to extend the present LHC mass and coupling reach by $20-50\%$ on mostnew physics scenarios, will also be able to constrain, and potentiallydiscover, new physics that is presently unconstrained. Moreover, compared tothe HL-LHC, the reach in most observables will generally more than double atthe HE-LHC, which may represent a good candidate future facility for a finaltest of TeV-scale new physics.

Published

2018

8. Les Houches 2015: Physics at TeV colliders - new physics working group report

Author

Brooijmans, G., Delaunay, C., Delgado, A., Englert, C., Falkowski, A., Fuks, B., Nikitenko, S., Sekmen, S., Barducci, D., Bernon, J., Bharucha, A., Brehmer, J., Brivio, I., Buckley, A., Burns, D., Cacciapaglia, G., Cai, H., Carmona, A., Carvalho, A., Chalons, G., Chen, Y., Chivukula, R. S., Conte, E., Deandrea, A., De Filippis, N., Desai, N., Flacke, T., Frigerio, M., Garcia-Pepin, M., Gleyzer, S., Goudelis, A., Goertz, F., Gras, P., Henrot-Versillé, S., Hewett, J. L., Ittisamai, P., Katz, A., Kopp, J., Kraml, S., Krauss, M. E., Kulkarni, S., Laa, U., Lacroix, S., Lane, K., Majumder, D., Martin, A., Mawatari, K., Mohan, K., Morse, D. M., Mimasu, K., Mühlleitner, M., Nardecchia, M., No, J. M., Orlando, R. D., Pani, P., Papucci, M., Polesello, G., Pollard, C., Porod, W., Prosper, H. B., Quirós, M., Rizzo, T., Sakurai, K., Santiago, J., Sanz, V., Schmidt, T., Schmeier, D., Sengupta, D., Shao, H. -S., Simmons, E. H., Sonneveld, J., Spieker, T., Spira, M., Tattersall, J., Unel, G., Vega-Morales, R., Waltenberger, W., Weiler, A., You, T., Zapata, O. A., and Zerwas, D.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

We present the activities of the 'New Physics' working group for the 'Physics at TeV Colliders' workshop (Les Houches, France, 1-19 June, 2015). Our report includes new physics studies connected with the Higgs boson and its properties, direct search strategies, reinterpretation of the LHC results in the building of viable models and new computational tool developments. Important signatures for searches for natural new physics at the LHC and new assessments of the interplay between direct dark matter searches and the LHC are also considered., Comment: Proceedings of the New Physics Working Group of the 2015 Les Houches Workshop, Physics at TeV Colliders, Les Houches 1-19 June 2015. 197 pages

Published

2016

9. Les Houches 2015: Physics at TeV colliders - new physics working group report

Author

Brooijmans, G, Delaunay, C, Delgado, A, Englert, C, Falkowski, A, Fuks, B, Nikitenko, S, Sekmen, S, Barducci, D, Bernon, J, Bharucha, A, Brehmer, J, Brivio, I, Buckley, A, Burns, D, Cacciapaglia, G, Cai, H, Carmona, A, Carvalho, A, Chalons, G, Chen, Y, Chivukula, RS, Conte, E, Deandrea, A, Filippis, N De, Desai, N, Flacke, T, Frigerio, M, Garcia-Pepin, M, Gleyzer, S, Goudelis, A, Goertz, F, Gras, P, Henrot-Versillé, S, Hewett, JL, Ittisamai, P, Katz, A, Kopp, J, Kraml, S, Krauss, ME, Kulkarni, S, Laa, U, Lacroix, S, Lane, K, Majumder, D, Martin, A, Mawatari, K, Mohan, K, Morse, DM, Mimasu, K, Mühlleitner, M, Nardecchia, M, No, JM, Orlando, RD, Pani, P, Papucci, M, Polesello, G, Pollard, C, Porod, W, Prosper, HB, Quirós, M, Rizzo, T, Sakurai, K, Santiago, J, Sanz, V, Schmidt, T, Schmeier, D, Sengupta, D, Shao, H-S, Simmons, EH, Sonneveld, J, Spieker, T, Spira, M, Tattersall, J, Unel, G, Vega-Morales, R, Waltenberger, W, Weiler, A, You, T, Zapata, OA, and Zerwas, D

Subjects

hep-ph, hep-ex

Abstract

We present the activities of the 'New Physics' working group for the 'Physicsat TeV Colliders' workshop (Les Houches, France, 1-19 June, 2015). Our reportincludes new physics studies connected with the Higgs boson and its properties,direct search strategies, reinterpretation of the LHC results in the buildingof viable models and new computational tool developments. Important signaturesfor searches for natural new physics at the LHC and new assessments of theinterplay between direct dark matter searches and the LHC are also considered.

Published

2016

10. Les Houches 2013: Physics at TeV Colliders: New Physics Working Group Report

Author

Brooijmans, G., Contino, R., Fuks, B., Moortgat, F., Richardson, P., Sekmen, S., Weiler, A., Alloul, A., Arbey, A., Baglio, J., Barducci, D., Barr, A. J., Basso, L., Battaglia, M., Bélanger, G., Belyaev, A., Bernon, J., Bharucha, A., Bondu, O., Boudjema, F., Boos, E., Buchkremer, M., Bunichev, V., Cacciapaglia, G., Chalons, G., Conte, E., Dolan, M. J., Deandrea, A., De Causmaecker, K., Djouadi, A., Dumont, B., Ellis, J., Englert, C., Falkowski, A., Fichet, S., Flacke, T., Gaz, A., Ghezzi, M., Godbole, R., Goudelis, A., Gouzevitch, M., Greco, D., Grober, R., Grojean, C., Guadagnoli, D., Gunion, J. F., Herrmann, B., Kalinowski, J., Kim, J. H., Kraml, S., Krauss, M. E., Kulkarni, S., Lee, S. J., Lim, S. H., Liu, D., Mahmoudi, F., Maravin, Y., Massironi, A., Mitzka, L., Mohan, K., Moreau, G., Mühlleitner, M. M., Nhung, D. T., O'Leary, B., Oliveira, A., Panizzi, L., Pappadopulo, D., Pataraia, S., Porod, W., Pukhov, A., Riva, F., Rojo, J., Rosenfeld, R., Ruiz-Álvarez, J., Rzehak, H., Sanz, V., Sengupta, D., Spannowsky, M., Spira, M., Streicher, J., Strobbe, N., Thamm, A., Thomas, M., Torre, R., Waltenberger, W., Walz, K., Wilcock, A., Wulzer, A., Würthwein, F., and Wymant, C.

Subjects

High Energy Physics - Phenomenology

Abstract

We present the activities of the "New Physics" working group for the "Physics at TeV Colliders" workshop (Les Houches, France, 3--21 June, 2013). Our report includes new computational tool developments, studies of the implications of the Higgs boson discovery on new physics, important signatures for searches for natural new physics at the LHC, new studies of flavour aspects of new physics, and assessments of the interplay between direct dark matter searches and the LHC., Comment: Proceedings of the New Physics Working Group of the 2013 Les Houches Workshop, Physics at TeV Colliders, Les Houches 3-21 June 2013. 201 pages

Published

2014

11. Phenomenology of unusual top partners in composite Higgs models

Author

Cacciapaglia, G., Flacke, T., Kunkel, M., and Porod, W.

Published

2022

12. Exploring extended Higgs sectors via pair production at the LHC

Author

Cacciapaglia, G., primary, Flacke, T., additional, Kunkel, M., additional, Porod, W., additional, and Schwarze, L., additional

Published

2022

13. Unleashing the full power of LHCb to probe stealth new physics

Author

Borsato, M., Cid Vidal, X., Tsai, Y., Sierra, C. Vazquez, Zurita, J., Alonso-Alvarez, G., Boyarsky, A., Brea Rodriguez, A., Franzosi, D. Buarque, Cacciapaglia, G., Casais Vidal, A., Du, M., Elor, G., Escudero, M., Ferretti, G., Flacke, T., Foldenauer, P., Hajer, J., Henry, L., Ilten, P., Kamenik, J., Kishor Jashal, B., Knapen, S., Redi, F. L., Low, M., Liu, Z., Oyanguren Campos, A., Polycarpo, E., Ramos, M., Pernas, M. Ramos, Salvioni, E., Rangel, M. S., Schaefer, R., Sestini, L., Soreq, Y., Tran, V. Q., Timiryasov, I, van Veghel, M., Westhoff, S., Williams, M., Zupan, J., Borsato, M., Cid Vidal, X., Tsai, Y., Sierra, C. Vazquez, Zurita, J., Alonso-Alvarez, G., Boyarsky, A., Brea Rodriguez, A., Franzosi, D. Buarque, Cacciapaglia, G., Casais Vidal, A., Du, M., Elor, G., Escudero, M., Ferretti, G., Flacke, T., Foldenauer, P., Hajer, J., Henry, L., Ilten, P., Kamenik, J., Kishor Jashal, B., Knapen, S., Redi, F. L., Low, M., Liu, Z., Oyanguren Campos, A., Polycarpo, E., Ramos, M., Pernas, M. Ramos, Salvioni, E., Rangel, M. S., Schaefer, R., Sestini, L., Soreq, Y., Tran, V. Q., Timiryasov, I, van Veghel, M., Westhoff, S., Williams, M., and Zupan, J.

Abstract

In this paper, we describe the potential of the LHCb experiment to detect stealth physics. This refers to dynamics beyond the standard model that would elude searches that focus on energetic objects or precision measurements of known processes. Stealth signatures include long-lived particles and light resonances that are produced very rarely or together with overwhelming backgrounds. We will discuss why LHCb is equipped to discover this kind of physics at the Large Hadron Collider and provide examples of well-motivated theoretical models that can be probed with great detail at the experiment.

Published

2022

14. Unleashing the full power of LHCb to probe stealth new physics

Author

Borsato, M, Cid Vidal, X, Tsai, Y, Vázquez Sierra, C, Zurita, J, Alonso-Álvarez, G, Boyarsky, A, Brea Rodríguez, A, Buarque Franzosi, D, Cacciapaglia, G, Casais Vidal, A, Du, M, Elor, G, Escudero, M, Ferretti, G, Flacke, T, Foldenauer, P, Hajer, J, Henry, L, Ilten, P, Kamenik, J, Kishor Jashal, B, Knapen, S, Kostiuk, I, Redi, F, Low, M, Liu, Z, Oyanguren Campos, A, Polycarpo, E, Ramos, M, Ramos Pernas, M, Salvioni, E, Rangel, M, Schäfer, R, Sestini, L, Soreq, Y, Tran, V, Timiryasov, I, van Veghel, M, Westhoff, S, Williams, M, Zupan, J, Kostiuk, Igor, Redi, F L, Rangel, M S, Tran, V Q, Borsato, M, Cid Vidal, X, Tsai, Y, Vázquez Sierra, C, Zurita, J, Alonso-Álvarez, G, Boyarsky, A, Brea Rodríguez, A, Buarque Franzosi, D, Cacciapaglia, G, Casais Vidal, A, Du, M, Elor, G, Escudero, M, Ferretti, G, Flacke, T, Foldenauer, P, Hajer, J, Henry, L, Ilten, P, Kamenik, J, Kishor Jashal, B, Knapen, S, Kostiuk, I, Redi, F, Low, M, Liu, Z, Oyanguren Campos, A, Polycarpo, E, Ramos, M, Ramos Pernas, M, Salvioni, E, Rangel, M, Schäfer, R, Sestini, L, Soreq, Y, Tran, V, Timiryasov, I, van Veghel, M, Westhoff, S, Williams, M, Zupan, J, Kostiuk, Igor, Redi, F L, Rangel, M S, and Tran, V Q

Abstract

In this paper, we describe the potential of the LHCb experiment to detect stealth physics. This refers to dynamics beyond the standard model that would elude searches that focus on energetic objects or precision measurements of known processes. Stealth signatures include long-lived particles and light resonances that are produced very rarely or together with overwhelming backgrounds. We will discuss why LHCb is equipped to discover this kind of physics at the Large Hadron Collider and provide examples of well-motivated theoretical models that can be probed with great detail at the experiment.

Published

2022

15. Unleashing the full power of LHCb to probe stealth new physics

Author

Borsato, M, primary, Cid Vidal, X, additional, Tsai, Y, additional, Vázquez Sierra, C, additional, Zurita, J, additional, Alonso-Álvarez, G, additional, Boyarsky, A, additional, Brea Rodríguez, A, additional, Buarque Franzosi, D, additional, Cacciapaglia, G, additional, Casais Vidal, A, additional, Du, M, additional, Elor, G, additional, Escudero, M, additional, Ferretti, G, additional, Flacke, T, additional, Foldenauer, P, additional, Hajer, J, additional, Henry, L, additional, Ilten, P, additional, Kamenik, J, additional, Kishor Jashal, B, additional, Knapen, S, additional, Kostiuk, Igor, additional, Redi, F L, additional, Low, M, additional, Liu, Z, additional, Oyanguren Campos, A, additional, Polycarpo, E, additional, Ramos, M, additional, Ramos Pernas, M, additional, Salvioni, E, additional, Rangel, M S, additional, Schäfer, R, additional, Sestini, L, additional, Soreq, Y, additional, Tran, V Q, additional, Timiryasov, I, additional, van Veghel, M, additional, Westhoff, S, additional, Williams, M, additional, and Zupan, J, additional

Published

2022

16. Reinterpretation of LHC results for new physics: Status and recommendations after run 2

Author

Abdallah, W, AbdusSalam, S, Ahmadov, A, Ahriche, A, Alguero, G, Allanach, BC, Araz, JY, Arbey, A, Arina, C, Athron, P, Bagnaschi, E, Bai, Y, Baker, MJ, Balazs, C, Barducci, D, Bechtle, P, Bharucha, A, Buckley, A, Butterworth, J, Cai, H, Campagnari, C, Cesarotti, C, Chrzaszcz, M, Coccaro, A, Conte, E, Cornell, JM, Corpe, LD, Danninger, M, Darmé, L, Deandrea, A, Desai, N, Dillon, B, Doglioni, C, Dolan, MJ, Dutta, J, Ellis, JR, Ellis, S, Feickert, M, Fernandez, N, Fichet, S, Flacke, T, Fuks, B, Geiser, A, Genest, MH, Ghalsasi, A, Gonzalo, T, Goodsell, M, Gori, S, Gras, P, Greljo, A, Guadagnoli, D, Heinemeyer, S, Heinrich, LA, Heisig, J, Hong, DK, Hryn'ova, T, Huitu, K, Ilten, P, Ismail, A, Jueid, A, Kahlhoefer, F, Kalinowski, J, Kamenik, JF, Kar, D, Kats, Y, Khosa, CK, Khoze, V, Klingl, T, Ko, P, Kong, K, Kotlarski, W, Krämer, M, Kraml, S, Kulkarni, S, Kvellestad, A, Lange, C, Lassila-Perini, K, Lee, SJ, Lessa, A, Liu, Z, Iglesias, LL, Lorenz, JM, MacDonell, D, Mahmoudi, F, Mamuzic, J, Marini, AC, Markowitz, P, del Arbol, PMR, Miller, D, Mitsou, VA, Moretti, S, Nardecchia, M, Neshatpour, S, Nhung, DT, Osland, P, Owen, PH, Panella, O, Pankov, A, Park, M, Porod, W, Allanach, Benjamin [0000-0003-4635-6830], and Apollo - University of Cambridge Repository

Subjects

hep-ex, hep-ph

Abstract

We report on the status of efforts to improve the reinterpretation of searches and measurements at the LHC in terms of models for new physics, in the context of the LHC Reinterpretation Forum. We detail current experimental offerings in direct searches for new particles, measurements, technical implementations and Open Data, and provide a set of recommendations for further improving the presentation of LHC results in order to better enable reinterpretation in the future. We also provide a brief description of existing software reinterpretation frameworks and recent global analyses of new physics that make use of the current data.

Published

2020

17. Gluon-photon signatures for color octet at the LHC (and beyond)

Author

Cacciapaglia, G., primary, Deandrea, A., additional, Flacke, T., additional, and Iyer, A.M., additional

Published

2020

18. Beyond the Standard Model Physics at the HL-LHC and HE-LHC

Author

Cid Vidal, X., D'Onofrio, M., Amoroso, S., Heintz, U., Helsens, C., Hoepfner, K., Hogan, J. M., Ilten, P., Ippolito, V., Ismail, A., Iyer, A. M., Jain, S., Jeanty, L., Anders, J. K., Jezo, T., Johns, W., Kalogeropoulos, A., Karancsi, J., Kats, Y., Keller, H., Khanov, A., Kieseler, J., Kim, B., Kim, M. S., Araz, J. Y., Kim, Y. G., Klasen, M., Klimek, M. D., Kogler, R., Komaragiri, J. R., Krämer, M., Kubota, S., Kulesza, A. K., Kulkarni, S., Lari, T., Arbey, A., Ledovskoy, A., Lee, G. R., Lee, L., Lee, S. W., Leonardi, R., Les, R., Lewis, I. M., Li, Q., Li, T., Lim, I. T., Azzi, P., Lin, K., Liu, Z., Long, K., Low, M., Lunghi, E., Madaffari, D., Mahmoudi, F., Majumder, D., Malvezzi, S., Mangano, M. L., Babounikau, I., Manoni, E., Marcano, X., Mariotti, A., Marjanovic, M., Marlow, D., Martin Camalich, J., Matorras Cuevas, P., McCullough, M., McDonald, E. F., Mejia Guisao, J., Baker, M. J., Mele, B., Meloni, F., Melzer-Pellmann, Isabell, Merlassino, C., Meyer, Andreas, Michielin, E., Miller, A. J., Mittnacht, L., Mondal, S., Moretti, S., Barducci, D., Mukhopadhyay, S., Nachman, B. P., Nam, K., Narain, M., Nardecchia, M., Nath, P., Navarro-González, J., Nisati, A., Nitta, T., Noel, D. L., Baron, O., Ochoa-Ricoux, J. P., Oide, H., Ojeda, M. L., Pagan Griso, S., Palencia Cortezon, E., Panella, O., Pani, P., Panizzi, L., Panwar, L., Park, C. B., Barranco Navarro, L., Pazzini, J., Pedro, K., Perego, M. M., Perrozzi, L., Petersen, B. A., Polesello, G., Policicchio, A., Potter, C. J., Pralavorio, P., Presilla, M., Fox, P. J., Bay, A., Proudfoot, J., Queiroz, F. S., Ramirez-Sanchez, G., Reimers, A., Resconi, S., Rimoldi, M., Rivera Vergara, J. C., Rizzo, T., Rogan, C., Romeo, F., Bhatia, D., Rosten, R., Ruiz, R., Ruiz-Alvarez, J., Iglesias, J. A. Sabater, Safarzadeh Samani, B., Sagir, S., Saito, M., Saito, S., Sala, F., Salazar, C., Biswas, S., Savin, A., Sawada, R., Sawant, S., Schienbein, I., Schlaffer, M., Schneider, B., Schuler, S. C., Sebastiani, C. D., Sekmen, S., Selvaggi, M., Bloch, D., Serodio, H., Sestini, L., Shakya, B., Shams Es Haghi, B., Sheldon, P., Shin, S., Simonetto, F., Soffi, L., Spannowsky, M., Stupak, J., Bogavac, D., Sullivan, M. J., Sunder, M., Takahashi, Y., Teagle, H., Terashi, K., Tesi, A., Thamm, A., Tobioka, K., Tornambe, P., Trovato, F., Borschensky, C., Tsiakkouri, D., Ungaro, F. C., Urbano, A., Usai, E., Vanegas, N., Vaslin, L., Vázquez Sierra, C., Vivarelli, I., Vranjes Milosavljevic, M., Waltari, H., Bugge, M. K., Wang, R., Wang, X., Weber, M. S., Weiland, C., Wielers, M., Williams, J. M., Willocq, S., Xu, D., Yagyu, K., Yazgan, E., Buttazzo, D., Ye, R., Yoo, H. D., You, T., Yu, F., Zevi Della Porta, G., Zhang, W., Zhu, C., Zhuang, X., Zobec, J., Zupan, J., Cacciapaglia, G., Cadamuro, L., Torre, R., Calandri, A., Camargo, D. A., Canepa, A., Carminati, L., Carrá, S., Carrillo Montoya, C. A., Carvalho Antunes de Oliveira, A., Castillo, F. L., Cavaliere, V., Cavalli, D., Ulmer, K. A., Cecchi, C., Celis, A., Cerri, A., Chahal, G. S., Chekanov, S. V., Cheng, H. J., Childers, J. T., Cirelli, M., Colegrove, O., Corcella, G., Aboubrahim, A., Corradi, M., Costa, M. J., Covarelli, R., Dang, N. P., Deandrea, A., De Curtis, S., De la Torre, H., Delle Rose, L., Del Re, D., Demela, A., Albert, A., Demers, S., Dermisek, R., De Santo, A., Dey, B., Donini, J., Duncan, A. K., Dutta, V., Escobar, C., Fanó, L., Ferretti, G., Alimena, J., Fiaschi, J., Fischer, O., Flacke, T., Frangipane, E. D., Frank, M., Frattari, G., Frizzell, D., Fuchs, E., Fuks, B., Gabrielli, E., Allanach, B. C., Gao, Y., García Navarro, J. E., Genest, M. H., Giagu, S., Giudice, G. F., Goh, J., Gouzevitch, M., Govoni, P., Greljo, A., Grohsjean, A., Altakach, M., Gurrola, A., Gustavino, G., Guyot, C., Gwilliam, C. B., Ha, S., Haisch, U., Haller, J., Han, T., Hayden, D., and Heikinheimo, M.

Subjects

Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, High Energy Physics::Experiment

Abstract

This is the third out of five chapters of the final report [1] of the Workshop on Physics at HL-LHC, and perspectives on HE-LHC [2]. It is devoted to the study of the potential, in the search for Beyond the Standard Model (BSM) physics, of the High Luminosity (HL) phase of the LHC, defined as $3$ ab$^{-1}$ of data taken at a centre-of-mass energy of 14 TeV, and of a possible future upgrade, the High Energy (HE) LHC, defined as $15$ ab$^{-1}$ of data at a centre-of-mass energy of 27 TeV. We consider a large variety of new physics models, both in a simplified model fashion and in a more model-dependent one. A long list of contributions from the theory and experimental (ATLAS, CMS, LHCb) communities have been collected and merged together to give a complete, wide, and consistent view of future prospects for BSM physics at the considered colliders. On top of the usual standard candles, such as supersymmetric simplified models and resonances, considered for the evaluation of future collider potentials, this report contains results on dark matter and dark sectors, long lived particles, leptoquarks, sterile neutrinos, axion-like particles, heavy scalars, vector-like quarks, and more. Particular attention is placed, especially in the study of the HL-LHC prospects, to the detector upgrades, the assessment of the future systematic uncertainties, and new experimental techniques. The general conclusion is that the HL-LHC, on top of allowing to extend the present LHC mass and coupling reach by $20-50\%$ on most new physics scenarios, will also be able to constrain, and potentially discover, new physics that is presently unconstrained. Moreover, compared to the HL-LHC, the reach in most observables will, generally more than double at the HE-LHC, which may represent a good candidate future facility for a final test of TeV-scale new physics.

Published

2018

19. Erratum: Improved bounds on universal extra dimensions and consequences for Kaluza-Klein dark matter (Physical Review D - Particles, Fields, Gravitation and Cosmology (2006) 73, (095002))

Author

Flacke, T, Hooper, D, and March-Russell, J

Published

2016

20. Singlets in Composite Higgs Models in light of the LHC di-photon searches

Author

Belyaev, A., Cacciapaglia, G., Cai, H., Flacke, T., Parolini, A., Serôdio, H., Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), High Energy Physics::Lattice, [PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph], High Energy Physics::Phenomenology, FOS: Physical sciences

Abstract

Models of compositeness can successfully address the origin of the Higgs boson, as a pseudo Nambu Goldstone boson (pNGB) of a spontaneously broken global symmetry, and flavour physics via the partial compositeness mechanism. If the dynamics is generated by a confining gauge group with fermionic matter content, there exists only a finite set of models that have the correct properties to account for the Higgs and top partners at the same time. In this letter we explore the theory space of this class of models: remarkably, all of them contain - beyond the pNGB Higgs - a pNGB singlet, $a$, which couples to Standard Model gauge bosons via Wess-Zumino-Witten interactions, thus providing naturally a resonance in di-boson at the LHC. With the assumption that the recently reported di-photon excess at 750 GeV at the LHC arises from the a-resonance, we propose a generic approach on how to delineate the best candidate for composite Higgs models with top-partners. We find that constraints from other di-boson searches severely reduce the theory space of the models under consideration. For the models which can explain the di-photon excess, we make precise and testable predictions for the width and other di-boson resonance searches., Comment: 5 pages, 2 Tables; v2: clarifying comments added, typos fixed, references updated

Published

2016

21. Search strategies for heavy quark partners at LHC run-II

Author

Flacke, T., primary

Published

2016

22. Improved Bounds on Universal Extra Dimensions and Consequences for LKP Dark Matter

Author

Flacke, T, Hooper, D, and March-Russell, J

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), Astrophysics (astro-ph), High Energy Physics::Phenomenology, FOS: Physical sciences, High Energy Physics::Experiment, Astrophysics

Abstract

We study constraints on models with a flat "Universal'' Extra Dimension in which all Standard Model fields propagate in the bulk. A significantly improved constraint on the compactification scale is obtained from the extended set of electroweak precision observables accurately measured at LEP1 and LEP2. We find a lower bound of M_c = R^{-1} > 700 (800) GeV at the 99% (95%) confidence level. We also discuss the implications of this constraint on the prospects for the direct and indirect detection of Kaluza-Klein dark matter in this model., 15 pages, 3 figures; typos fixed, references added

Published

2005

23. A storm in my heart.

Author

Flacke T

Abstract

Group therapy with adult survivors of childhood abuse in the West of Ireland health service. [ABSTRACT FROM AUTHOR]

Published

2007

24. Les Houches 2017: Physics at TeV Colliders New Physics Working Group Report

Author

Brooijmans, G., Dolan, M., Gori, S., Maltoni, F., Mccullough, M., Musella, P., Perrozzi, L., Richardson, P., Riva, F., Angelescu, A., Banerjee, S., Barducci, D., Bélanger, G., Bhattacherjee, B., Borsato, M., Buckley, A., Butterworth, J. M., Cacciapaglia, G., Cai, H., Carvalho, A., Chakraborty, A., Giovanna Cottin, Deandrea, A., Blas, J., Desai, N., Endo, M., Ezroura, N., Facini, G., Fichet, S., Finco, L., Flacke, T., Fuks, B., Gardner, P., Gascon-Shotkin, S., Goudelis, A., Gras, P., Grellscheid, D., Gröber, R., Guadagnoli, D., Haisch, U., Harz, J., Heisig, J., Herrmann, B., Hewett, J., Hryn Ova, T., Kamenik, J. F., Kraml, S., Laa, U., Lane, K., Lessa, A., Liebler, S., Lohwasser, K., Lombardo, D. M., Majumder, D., Malinauskas, A., Mattelaer, O., Mimasu, K., Moreau, G., Mühlleitner, M., Nelson, A. E., No, J. M., Nojiri, M. M., Pani, P., Panizzi, L., Park, M., Polesello, G., Porod, W., Pritchett, L., Prosper, H. B., Pukhov, A., Quevillon, J., Rizzo, T., Roloff, P., Rzehak, H., Sekmen, S., Sengupta, D., Spira, M., Vernieri, C., Walker, D. G. E., Yallup, D., Zaldivar, B., Zhang, S., Zurita, J., Institut de Physique Nucléaire de Lyon (IPNL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université de Lyon, Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.), Laboratoire Univers et Particules de Montpellier (LUPM), Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Théorique et Hautes Energies (LPTHE), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire d'Annecy-le-Vieux de Physique Théorique (LAPTH), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut Lagrange de Paris, Sorbonne Universités, Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Laboratoire de Physique Théorique d'Orsay [Orsay] (LPT), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon ( IPNL ), Université Claude Bernard Lyon 1 ( UCBL ), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS ( IN2P3 ) -Centre National de la Recherche Scientifique ( CNRS ), Laboratoire Univers et Particules de Montpellier ( LUPM ), Centre National de la Recherche Scientifique ( CNRS ) -Institut National de Physique Nucléaire et de Physique des Particules du CNRS ( IN2P3 ) -Université Montpellier 2 - Sciences et Techniques ( UM2 ) -Université de Montpellier ( UM ), Laboratoire de Physique Théorique et Hautes Energies ( LPTHE ), Université Pierre et Marie Curie - Paris 6 ( UPMC ) -Centre National de la Recherche Scientifique ( CNRS ), Institut de Recherches sur les lois Fondamentales de l'Univers ( IRFU ), Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Université Paris-Saclay, Laboratoire d'Annecy-le-Vieux de Physique Théorique ( LAPTH ), Université Savoie Mont Blanc ( USMB [Université de Savoie] [Université de Chambéry] ) -Centre National de la Recherche Scientifique ( CNRS ), Laboratoire d'Annecy de Physique des Particules ( LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules ), Institut National de Physique Nucléaire et de Physique des Particules du CNRS ( IN2P3 ) -Université Savoie Mont Blanc ( USMB [Université de Savoie] [Université de Chambéry] ) -Centre National de la Recherche Scientifique ( CNRS ), Laboratoire de Physique Subatomique et de Cosmologie ( LPSC ), Université Joseph Fourier - Grenoble 1 ( UJF ) -Institut polytechnique de Grenoble - Grenoble Institute of Technology ( Grenoble INP ) -Institut National de Physique Nucléaire et de Physique des Particules du CNRS ( IN2P3 ) -Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique ( CNRS ) -Université Grenoble Alpes ( UGA ), Laboratoire de Physique Théorique d'Orsay [Orsay] ( LPT ), Université Paris-Sud - Paris 11 ( UP11 ) -Centre National de la Recherche Scientifique ( CNRS ), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Sorbonne Université (SU), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), Centre National de la Recherche Scientifique (CNRS)-Université Paris-Sud - Paris 11 (UP11), and Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Montpellier 2 - Sciences et Techniques (UM2)

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), interpretation of experiments: CERN LHC Coll, new physics, [PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph], High Energy Physics::Phenomenology, FOS: Physical sciences, hep-ph, [ PHYS.HPHE ] Physics [physics]/High Energy Physics - Phenomenology [hep-ph], Higgs particle, buildings, Particle Physics - Phenomenology

Abstract

We present the activities of the `New Physics' working group for the `Physics at TeV Colliders' workshop (Les Houches, France, 5--23 June, 2017). Our report includes new physics studies connected with the Higgs boson and its properties, direct search strategies, reinterpretation of the LHC results in the building of viable models and new computational tool developments., Les Houches 2017 proceedings, 224 pages, many figures

25. Beyond the Standard Model Physics at the HL-LHC and HE-LHC

Author

Cid Vidal, X., D'Onofrio, M., Fox, P. J., Torre, R., Ulmer, K. A., Aboubrahim, A., Albert, A., Alimena, J., Allanach, B. C., Altakach, M., Amoroso, S., Anders, J. K., Araz, J. Y., Arbey, A., Azzi, P., Babounikau, I., Baker, M. J., Barducci, D., Baron, O., Barranco Navarro, L., Bay, A., Bhatia, D., Biswas, S., Bloch, D., Bogavac, D., Borschensky, C., Bugge, M. K., Buttazzo, D., Cacciapaglia, G., Cadamuro, L., Calandri, A., Camargo, D. A., Canepa, A., Carminati, L., Carrá, S., Carrillo Montoya, C. A., Carvalho Antunes De Oliveira, A., Castillo, F. L., Cavaliere, V., Cavalli, D., Cecchi, C., Celis, A., Cerri, A., Chahal, G. S., Chekanov, S. V., Cheng, H. J., Childers, J. T., Cirelli, M., Colegrove, O., Corcella, G., Corradi, M., Costa, M. J., Covarelli, R., Dang, N. P., Deandrea, A., De Curtis, S., De La Torre, H., Delle Rose, L., Del Re, D., Demela, A., Demers, S., Dermisek, R., De Santo, A., Dey, B., Donini, J., Duncan, A. K., Dutta, V., Escobar, C., Fanó, L., Ferretti, G., Fiaschi, J., Fischer, O., Flacke, T., Frangipane, E. D., Frank, M., Frattari, G., Frizzell, D., Fuchs, E., Fuks, B., Gabrielli, E., Gao, Y., García Navarro, J. E., Genest, M. H., Giagu, S., Giudice, G. F., Goh, J., Gouzevitch, M., Govoni, P., Greljo, A., Grohsjean, A., Gurrola, A., Gustavino, G., Guyot, C., Gwilliam, C. B., Ha, S., Haisch, U., Haller, J., Han, T., Hayden, D., Heikinheimo, M., Heintz, U., Helsens, C., Hoepfner, K., Hogan, J. M., Ilten, P., Ippolito, V., Ismail, A., Iyer, A. M., Jain, S., Jeanty, L., Jezo, T., Johns, W., Kalogeropoulos, A., Karancsi, J., Kats, Y., Keller, H., Khanov, A., Kieseler, J., Kim, B., Kim, M. S., Kim, Y. G., Klasen, M., Klimek, M. D., Kogler, R., Komaragiri, J. R., Krämer, M., Kubota, S., Kulesza, A. K., Kulkarni, S., Lari, T., Ledovskoy, A., Lee, G. R., Lee, L., Lee, S. W., Leonardi, R., Les, R., Lewis, I. M., Li, Q., Li, T., Lim, I. T., Lin, K., Liu, Z., Long, K., Low, M., Lunghi, E., Madaffari, D., Mahmoudi, F., Majumder, D., Malvezzi, S., Mangano, M. L., Manoni, E., Marcano, X., Mariotti, A., Marjanovic, M., Marlow, D., Martin Camalich, J., Matorras Cuevas, P., McCullough, M., McDonald, E. F., Mejia Guisao, J., Mele, B., Meloni, F., Melzer-Pellmann, Isabell, Merlassino, C., Meyer, Andreas, Michielin, E., Miller, A. J., Mittnacht, L., Mondal, S., Moretti, S., Mukhopadhyay, S., Nachman, B. P., Nam, K., Narain, M., Nardecchia, M., Nath, P., Navarro-González, J., Nisati, A., Nitta, T., Noel, D. L., Ochoa-Ricoux, J. P., Oide, H., Ojeda, M. L., Pagan Griso, S., Palencia Cortezon, E., Panella, O., Pani, P., Panizzi, L., Panwar, L., Park, C. B., Pazzini, J., Pedro, K., Perego, M. M., Perrozzi, L., Petersen, B. A., Polesello, G., Policicchio, A., Potter, C. J., Pralavorio, P., Presilla, M., Proudfoot, J., Queiroz, F. S., Ramirez-Sanchez, G., Reimers, A., Resconi, S., Rimoldi, M., Rivera Vergara, J. C., Rizzo, T., Rogan, C., Romeo, F., Rosten, R., Ruiz, R., Ruiz-Alvarez, J., Iglesias, J. A. Sabater, Safarzadeh Samani, B., Sagir, S., Saito, M., Saito, S., Sala, F., Salazar, C., Savin, A., Sawada, R., Sawant, S., Schienbein, I., Schlaffer, M., Schneider, B., Schuler, S. C., Sebastiani, C. D., Sekmen, S., Selvaggi, M., Serodio, H., Sestini, L., Shakya, B., Shams Es Haghi, B., Sheldon, P., Shin, S., Simonetto, F., Soffi, L., Spannowsky, M., Stupak, J., Sullivan, M. J., Sunder, M., Takahashi, Y., Teagle, H., Terashi, K., Tesi, A., Thamm, A., Tobioka, K., Tornambe, P., Trovato, F., Tsiakkouri, D., Ungaro, F. C., Urbano, A., Usai, E., Vanegas, N., Vaslin, L., Vázquez Sierra, C., Vivarelli, I., Vranjes Milosavljevic, M., Waltari, H., Wang, R., Wang, X., Weber, M. S., Weiland, C., Wielers, M., Williams, J. M., Willocq, S., Xu, D., Yagyu, K., Yazgan, E., Ye, R., Yoo, H. D., You, T., Yu, F., Zevi Della Porta, G., Zhang, W., Zhu, C., Zhuang, X., Zobec, J., and Zupan, J.

Subjects

7. Clean energy

Abstract

279 pp. (2018)., This is the third out of five chapters of the final report [1] of the Workshop on Physics at HL-LHC, and perspectives on HE-LHC [2]. It is devoted to the study of the potential, in the search for Beyond the Standard Model (BSM) physics, of the High Luminosity (HL) phase of the LHC, defined as $3$ ab$^{-1}$ of data taken at a centre-of-mass energy of 14 TeV, and of a possible future upgrade, the High Energy (HE) LHC, defined as $15$ ab$^{-1}$ of data at a centre-of-mass energy of 27 TeV. We consider a large variety of new physics models, both in a simplified model fashion and in a more model-dependent one. A long list of contributions from the theory and experimental (ATLAS, CMS, LHCb) communities have been collected and merged together to give a complete, wide, and consistent view of future prospects for BSM physics at the considered colliders. On top of the usual standard candles, such as supersymmetric simplified models and resonances, considered for the evaluation of future collider potentials, this report contains results on dark matter and dark sectors, long lived particles, leptoquarks, sterile neutrinos, axion-like particles, heavy scalars, vector-like quarks, and more. Particular attention is placed, especially in the study of the HL-LHC prospects, to the detector upgrades, the assessment of the future systematic uncertainties, and new experimental techniques. The general conclusion is that the HL-LHC, on top of allowing to extend the present LHC mass and coupling reach by $20-50\%$ on most new physics scenarios, will also be able to constrain, and potentially discover, new physics that is presently unconstrained. Moreover, compared to the HL-LHC, the reach in most observables will, generally more than double at the HE-LHC, which may represent a good candidate future facility for a final test of TeV-scale new physics.

26. TF07 Snowmass Report: Theory of Collider Phenomena

Author

Maltoni, F., Su, S., Thaler, J., Aarrestad, T. K., Aboubrahim, A., Adhikari, S., Agapov, I., Agashe, K., Agrawal, P., Airen, S., Alioli, S., Argüelles, C. A., Bao, Y., Bargassa, P., Barish, B., Barklow, T., Barletta, W. A., Barman, R. K., Barzi, E., Benedikt, M., Banerjee, A., Barth, A., Beauchesne, H., Beekveld, M., Bellis, M., Beneke, M., Blas, J., Blondel, A., Bogatskiy, A., Bonilla, J., Boscolo, M., Bravo-Prieto, C., Breidenbach, M., Brunner, O., Buttazzo, D., Butter, A., Cacciapaglia, G., Calame, C. M. C., Caola, F., Capdevilla, R., Cassidy, M. E., Cesarotti, C., Cetorelli, F., Chachamis, G., Chang, S. Y., Charles, T., Chekanov, S. V., Chen, D., Chen, W., Chiesa, M., Collins, J. H., Cook, A., Cordero, F. F., Di Cortonac, G. G., Costantini, A., Coughlin, M., Curtin, D., Darmora, S., Dasu, S., Date, P., Deandrea, A., Delgado, A., Denner, A., Denisov, D., Deppisch, F. F., Dermisek, R., Dibenedetto, D., Dienes, K. R., Dillon, B. M., Dittmaier, S., Dong, Z., Du, P., Du, Y., Duarte, J., Duhr, C., Ekhterachian, M., Engel, T., Erbacher, R., Fan, J., Feickert, M., Feng, J. L., Feng, Y., Ferretti, G., Fischer, W., Flacke, T., Flower, L., Fox, P. J., Franceschini, R., Francis, A., Franken, R., Franzosi, D. B., Freitas, A., Frixione, S., Fuks, B., Fuster, J., Gallinaro, M., Gandrakota, A., Ganguly, S., Gao, J., Garzelli, M. V., Gavardi, A., Gellersen, L., Genest, M-H, Gianelle, A., Gianfelice-Wendt, E., Giannotti, M., Ginzburg, I. F., Gluza, J., Gonçalves, D., Gouskos, L., Govoni, P., Grojean, C., Gu, J., Gutleber, J., Hamilton, K. E., Han, T., Harnik, R., Harris, P., Hauck, S., Heinemeyer, S., Herwig, C., Hinzmann, A., Hoang, A., Höche, S., Holzman, B., Hong, S., Hsu, S. -C, Huffman, B. T., Irles, A., Islam, W., Jadach, S., Janot, P., Sebastian Jaskiewicz, Jindariani, S., Kalinowski, J., Karch, A., Kar, D., Karagiorgi, G., Kasieczka, G., Katsavounidis, E., Kawamura, J., Khoda, E. E., Kilian, W., Kim, D., Kim, J. H., Kipf, T., Klasen, M., Kling, F., Kogler, R., Kondor, R., Kong, K., Koratzinos, M., Kotwa, A. V., Kraml, S., Kreher, N., Kulkarni, S., Kunkel, M., Laenen, E., Lane, S. D., Lange, C., Lazar, J., Leblanc, M., Leibovichma, A. K., Lemmon, R., Lewis, I. M., Li, H., Li, J., Li, L., Li, S., Li, T., Liu, M., Liu, X., Liu, T., Liu, Z., Llatas, M. C., Lohwasser, K., Long, K., Losito, R., Lou, X., Lucchesi, D., Lunghi, E., Di Luzio, L., Ma, Y., Magano, D., Mantani, L., Manteuffel, A., Marchegiani, M., Martinez, M. L., Masouminia, M. R., Matchev, K. T., Mattelaer, O., Mccormack, W. P., Mcfayden, J., Mcginnis, N., Mclean, C., Meade, P., Melia, T., Melini, D., Meloni, F., Miller, D. W., Miralles, V., Mishra, R. K., Mistlberger, B., Mitra, M., Di Mitri, S., Moch, S. -O, Montagna, G., Mukherjee, S., Murnane, D., Nachman, B., Nagaitsev, S., Nanni, E. A., Nardi, E., Nath, P., Neill, D., Neubauer, M. S., Neumann, T., Ngadiuba, J., Nicotra, D., Nicrosini, O., Offermann, J. T., Oide, K., Omar, Y., Padhan, R., Panizzi, L., Papaefstathiou, A., Park, M., Pedro, K., Pellen, M., Pelliccioli, G., Penin, A., Peskin, M. E., Petriello, F., Pettee, M., Piccinini, F., Plätzer, S., Plehn, T., Porod, W., Potamianos, K., Price, A., Pyarelal, A., Randall, L., Rankin, D., Rappoccio, S., Raubenheimer, T., Reno, M. H., Reuter, J., Riemann, T., Rimmer, R., Ringer, F., Rizzo, T. G., Robens, T., Rocco, M., Rodrigues, E., Rojo, J., Roy, D., Roloff, J., Ruiz, R., Sathyan, D., Schmidt, T., Schönherr, M., Schumann, S., Schwan, C., Schwarze, L., Schwinn, C., Seeman, J., Serbo, V. G., Sestini, L., Shanahan, P., Shatilov, D., Shih, D., Shiltsev, V., Shimmin, C., Shin, S., Shuve, B., Shyamsundar, P., Sierra, C. V., Signer, A., Skrzypek, M., Sjöstrand, T., Soldin, D., Song, H., Stagnitto, G., Stapnesa, S., Stark, G., Sterman, G., Striegl, T., Strumia, A., Su, W., Sullivan, M., Sundrum, R., Syed, R. M., Szafron, R., Szleper, M., Tang, J., Tanma, X. Z., Thais, S., Thomas, B., Tian, J., Tran, N., Ulrich, Y., Uwer, P., Valassi, A., Vallecorsas, S., Verheyen, R., Vernazza, L., Vernieri, C., Vicini, A., Visinelli, L., Vita, G., Vitev, I., Vlimant, J. -R, Voβ, K., Vos, M., Vries, J., Vryonidou, E., Wagner, C. E. M., Ward, B. F. L., Wang, J., Wang, L. -T, Wang, X., Wang, Y., Weinzierl, S., White, G., Wienands, U., Wu, Y., Wulzer, A., Xie, K., Xu, Q., Yang, T., Yazgan, E., Yeh, C. -H, Yu, S. -S, Zarnecki, A. F., Zaro, M., Zhang, J., Zhang, R., Zhang, Y., Zheng, Y., Zimmermann, F., Zhu, H. X., and Zuliani, D.

Subjects

High Energy Physics - Experiment (hep-ex), High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), hep-ex, FOS: Physical sciences, hep-ph, Particle Physics - Experiment, High Energy Physics - Experiment, Particle Physics - Phenomenology

Abstract

Theoretical research has long played an essential role in interpreting data from high-energy particle colliders and motivating new accelerators to advance the energy and precision frontiers. Collider phenomenology is an essential interface between theoretical models and experimental observations, since theoretical studies inspire experimental analyses while experimental results sharpen theoretical ideas. This report -- from the Snowmass 2021 Theory Frontier topical group for Collider Phenomenology (TF07) -- showcases the dynamism, engagement, and motivations of collider phenomenologists by exposing selected exciting new directions and establishing key connections between cutting-edge theoretical advances and current and future experimental opportunities. By investing in collider phenomenology, the high-energy physics community can help ensure that theoretical advances are translated into concrete tools that enable and enhance current and future experiments, and in turn, experimental results feed into a more complete theoretical understanding and motivate new questions and explorations., 11+11 pages, 343 contributors, 1 key formula; contribution to Snowmass 2021, draft report of the Theory Frontier topical group for Collider Phenomenology (TF07), comments and suggestions welcome; v2: updated contributor list

27. Les Houches 2019 Physics at TeV Colliders: New Physics Working Group Report

Author

Brooijmans, G., Buckley, A., Caron, S., Falkowski, A., Fuks, B., Gilbert, A., Murray, W. J., Nardecchia, M., No, J. M., Torre, R., You, T., Zevi Della Porta, G., Alguero, G., Araz, J. Y., Banerjee, S., Bélanger, G., Berger-Hryn'ova, T., Bernigaud, J., Bharucha, A., Buttazzo, D., Butterworth, J. M., Cacciapaglia, G., Coccaro, A., Corpe, L., Desai, N., De Simone, A., Dutta, J., Farbin, A., Fichet, S., Flacke, T., Ganguly, S., Gascon-Shotkin, S., Gonzalo, T., Goudelis, A., Gras, P., Gupta, R. S., Habedank, M., Heisig, J., Hendriks, L., Jain, S., Jueid, A., Kar, D., Kraml, S., Kvellestad, A., Lane, K. D., Langford, J., Leinweber, A., Lesauvage, A., Lessa, A., Mamuzic, J., Marzocca, D., Merényi, E., Mjallal, A., Mohan, K. A., Morandini, A., Moreau, G., Mutzel, S., Nellist, C., Otten, S., Pani, P., Panizzi, L., Pierini, M., Polesello, G., Porod, W., Prosper, H. B., Pukhov, A., Quevillon, J., Raklev, A., Reyes-González, H., Ruiz, R., Ruiz de Austri, R., Schouwenberg, J., Sekmen, S., Sengupta, D., Smith, C., Son, M., Sperka, D., Stienen, B., Tobioka, K., van Beekveld, M., Venturini, E., Vignaroli, N., Vilalta, R., Waltenberger, W., Wardle, N., Watt, G., White, M., Williamson, S. L., Yallup, D., Zurita, J., Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.), Laboratoire de Physique Théorique et Hautes Energies (LPTHE), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), Laboratoire d'Annecy-le-Vieux de Physique Théorique (LAPTH), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Centre de Physique Théorique - UMR 7332 (CPT), Aix Marseille Université (AMU)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique de Clermont (LPC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Clermont Auvergne (UCA)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

data analysis method, hep-ex, new physics: search for, FOS: Physical sciences, hep-ph, talk: Les Houches 2019/06/10, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), statistical analysis, [PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph], [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Particle Physics - Experiment, Particle Physics - Phenomenology

Abstract

This report presents the activities of the `New Physics' working group for the `Physics at TeV Colliders' workshop (Les Houches, France, 10--28 June, 2019). These activities include studies of direct searches for new physics, approaches to exploit published data to constrain new physics, as well as the development of tools to further facilitate these investigations. Benefits of machine learning for both the search for new physics and the interpretation of these searches are also presented., Proceedings of the BSM Session of the Les Houches 2019 workshop, 227 pages

28. Search strategies for vector-like quark partners at LHC run-II

Author

Flacke Thomas

Subjects

Physics, QC1-999

Abstract

We present results on several new search channels and strategies for heavy vector-like quark partners or vector resonances at the LHC run-II. Run-II has sensitivity to single- and pair-produced quark partners with masses beyond 1 TeV, and for even higher masses for vector resonances. Decays of such heavy particles yield highly boosted tops, Higgses, and weak gauge bosons. At high boost, the Standard Model background of hadronic final states can be substantially suppressed when applying jet-substructure techniques. We present several case studies where the identification of hadronically decaying tops, Higgses, and/or electroweak gauge bosons allow to make new search channels competitive at run-II.

Published

2017

29. Mary Jiggins -- 1945-2007.

Author

Flacke T

Published

2007

30. Long-lived particles at the energy frontier: the MATHUSLA physics case.

Author

Curtin D, Drewes M, McCullough M, Meade P, Mohapatra RN, Shelton J, Shuve B, Accomando E, Alpigiani C, Antusch S, Carlos Arteaga-Velázquez J, Batell B, Bauer M, Blinov N, Salomé Caballero-Mora K, Hyeok Chang J, Chun EJ, Co RT, Cohen T, Cox P, Craig N, Csáki C, Cui Y, D'Eramo F, Delle Rose L, Bhupal Dev PS, Dienes KR, Dror JA, Essig R, Evans JA, Evans JL, Fernández Tellez A, Fischer O, Flacke T, Fradette A, Frugiuele C, Fuchs E, Gherghetta T, Giudice GF, Gorbunov D, Gupta RS, Hagedorn C, Hall LJ, Harris P, Carlos Helo J, Hirsch M, Hochberg Y, Hook A, Ibarra A, Ipek S, Jung S, Knapen S, Kuflik E, Liu Z, Lombardo S, Lubatti HJ, McKeen D, Molinaro E, Moretti S, Nagata N, Neubert M, Miguel No J, Olaiya E, Perez G, Peskin ME, Pinner D, Pospelov M, Reece M, Robinson DJ, Rodríguez Cahuantzi M, Santonico R, Schlaffer M, Shepherd-Themistocleous CH, Spray A, Stolarski D, Subieta Vasquez MA, Sundrum R, Thamm A, Thomas B, Tsai Y, Tweedie B, West SM, Young C, Yu F, Zaldivar B, Zhang Y, Zurek K, and Zurita J

Abstract

We examine the theoretical motivations for long-lived particle (LLP) signals at the LHC in a comprehensive survey of standard model (SM) extensions. LLPs are a common prediction of a wide range of theories that address unsolved fundamental mysteries such as naturalness, dark matter, baryogenesis and neutrino masses, and represent a natural and generic possibility for physics beyond the SM (BSM). In most cases the LLP lifetime can be treated as a free parameter from the [Formula: see text]m scale up to the Big Bang Nucleosynthesis limit of [Formula: see text] m. Neutral LLPs with lifetimes above [Formula: see text]100 m are particularly difficult to probe, as the sensitivity of the LHC main detectors is limited by challenging backgrounds, triggers, and small acceptances. MATHUSLA is a proposal for a minimally instrumented, large-volume surface detector near ATLAS or CMS. It would search for neutral LLPs produced in HL-LHC collisions by reconstructing displaced vertices (DVs) in a low-background environment, extending the sensitivity of the main detectors by orders of magnitude in the long-lifetime regime. We study the LLP physics opportunities afforded by a MATHUSLA-like detector at the HL-LHC, assuming backgrounds can be rejected as expected. We develop a model-independent approach to describe the sensitivity of MATHUSLA to BSM LLP signals, and compare it to DV and missing energy searches at ATLAS or CMS. We then explore the BSM motivations for LLPs in considerable detail, presenting a large number of new sensitivity studies. While our discussion is especially oriented towards the long-lifetime regime at MATHUSLA, this survey underlines the importance of a varied LLP search program at the LHC in general. By synthesizing these results into a general discussion of the top-down and bottom-up motivations for LLP searches, it is our aim to demonstrate the exceptional strength and breadth of the physics case for the construction of the MATHUSLA detector.

Published

2019

31. Revealing timid pseudo-scalars with taus at the LHC.

Author

Cacciapaglia G, Ferretti G, Flacke T, and Serôdio H

Abstract

A light pseudo-scalar that is copiously produced at the LHC may still be allowed by present searches. While masses above 65 GeV are effectively covered by di-photon searches, the lower mass window can be tested by a new search for boosted di-tau resonances. We test this strategy on a set of composite Higgs models with top partial compositeness, where most models can be probed with an integrated luminosity below 300 fb - 1 .

Published

2018