Your search keyword '"Cacciapaglia, Giacomo"' showing total 712 results

1. General vacuum stability of orbifold gauge breaking and application to asymptotic grand unification

Author

Cacciapaglia, Giacomo, Cornell, Alan S., Deandrea, Aldo, Isnard, Wanda, Pasechnik, Roman, Preda, Anca, and Wang, Zhi-Wei

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We examine the vacuum stability of gauge symmetry breaking in five dimensions, compactified on the $S_1/(\mathbb{Z}_2 \times \mathbb{Z}'_2)$ orbifold. We consider $SU(N)$, $Sp(N)$, $SO(2N)$ and $SO(2N+1)$ theories in the bulk, and provide an exhaustive classification of possible parity assignments that lead to stable orbifolds and of the corresponding symmetry breaking patterns. We use these results in the search for viable asymptotic grand unification theories (aGUT), testing the stability criteria on models based on $SU(6)$ and $SU(8)$. As a result, we identify two viable aGUTs: a unique $SU(6)$ pathway down to the Standard Model, and one $SU(8)$ model leading to an intermediate Pati-Salam partial unification., Comment: 44 pages, 4 figures

Published

2024

2. Charting Standard Model Duality and its Signatures

Author

Cacciapaglia, Giacomo and Sannino, Francesco

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory

Abstract

We investigate high and low energy implications of a gauge dual description of the Standard Model. The high energy electric theory features gauge dynamics involving only fermionic matter fields, while the low energy magnetic description features a quasi-supersymmetric spectrum testable at colliders. The flavour theory is constructed via operators generated at the Planck scale. We further show that duality opens novel avenues for theories of grand unification., Comment: 5 pages, 1 figure

Published

2024

3. Measuring Hawking Radiation from Black Hole Morsels in Astrophysical Black Hole Mergers

Author

Cacciapaglia, Giacomo, Hohenegger, Stefan, and Sannino, Francesco

Subjects

Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

We show that it is possible to observe the Hawking radiation emitted by small black holes assumed to form in catastrophic astrophysical events such as black hole mergers. Gamma ray bursts in the TeV range are unique footprints of these asteroid-mass black hole morsels ejected during the merger. The time delay of the gamma ray bursts from the gravitational wave event is correlated to the mass distribution of the morsels. The integrated mass of the morsels allowed by the unaccounted merger mass leads to a Hawking induced radiation in photons that is above the sensitivity of atmospheric Cherenkov telescopes such as HESS, LHAASO and HAWC., Comment: 4 pages, 3 figures

Published

2024

4. Coloured spin-1 states in composite Higgs models

Author

Cacciapaglia, Giacomo, Deandrea, Aldo, Kunkel, Manuel, and Porod, Werner

Subjects

High Energy Physics - Phenomenology

Abstract

Strong dynamics for composite Higgs models predict spin-1 resonances which are expected to be in the same mass range as the usually considered top-partners. We study here QCD-coloured vector and axial-vector states stemming from composite Higgs dynamics in several relevant models based on an underlying gauge-fermion description. These states can come as triplet, sextet and octet representation. All models considered have a colour octet vector state in common which can be singly produced at hadron colliders as it mixes with the gluon. We explore the rich and testable phenomenology of these coloured spin-1 states at the LHC and future colliders., Comment: 18 pages, 5 figures; v2: matches published version

Published

2024

5. The Cosmological Constant, Dark Matter and the ElectroWeak Scale meet in the Swampland

Author

Fadafan, Kazem Bitaghsir and Cacciapaglia, Giacomo

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

The Swampland program, which looks for low energy theories consistent with quantum gravity, has led to the introduction of a dark dimension stemming from the cosmological constant. We show that the same argument leads to the emergence of the electroweak scale, once the dark dimension is realised in a warped background. A second warped extra dimension at the TeV scale is, therefore, postulated, where the long-standing problem of the hierarchy between the electroweak and the Planck scales can be addressed. Furthermore, standard model contributions to the cosmological constant are tamed, together with the gravitational ones. In the emergent holistic picture of gravity and gauge interactions, both Planck and the electroweak scales are emergent from a theory with two fundamental scales: $10^{-2}$ eV and $10^{10}$ GeV, which are of geometric origin and, following the Distance Conjecture, natural. Hence, a bridge is established between the two standard models of particle physics and cosmology., Comment: 5 pages, 2 figures. Extended discussion on naturalness and a concrete metric example

Published

2023

6. Systematic classification of aGUT models in five dimensions: The SU(N) kinship

Author

Cacciapaglia, Giacomo

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Asymptotic Grand Unification theories (aGUTs) in five dimensions provide a valid alternative to standard quantitative unification. We define the pathway towards viable models starting from a general unified bulk gauge symmetry. Imposing the presence of ultra-violet fixed points for both gauge and Yukawa couplings strongly limits the possibilities. Within the SU(N) kinship, we identify and characterise only two realistic minimal models, both based on a bulk SU(6) symmetry. Both models feature the generation of either up or down-type Yukawas via gauge scalars, two Higgs doublets with build-in minimal flavour violation at low energies, and conservation of baryon number. We also propose interesting avenues beyond the minimality criterion., Comment: 28 pages, one typo corrected and one reference added

Published

2023

7. Composite Hybrid Inflation: Dilaton and Waterfall Pions

Author

Cacciapaglia, Giacomo, Cheong, Dhong Yeon, Deandrea, Aldo, Isnard, Wanda, and Park, Seong Chan

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We investigate the possibility that inflation originates from a composite field theory, in terms of an effective chiral Lagrangian involving a dilaton and pions. The walking dynamics of the theory constrain the potential in a specific way, where the anomalous dimensions of operators involving pions play a crucial role. For realistic values of the anomalous dimensions, we find a successful hybrid inflation occurring via the dilaton-inflaton, with the pions acting as waterfall fields. Compositeness consistency strongly constrain the model, predicting a dilaton scale $f_\chi \sim \mathcal{O} (1)$ in unit of the Planck scale, an inflation scale $H_\text{inf} \sim 10^{10}$ GeV, and the pion scale around $10^{14}$ GeV. We further discuss possible phenomenological consequences of this theory., Comment: 14 pages, 4 figures

Published

2023

8. Hidden Supersymmetric Dark Sectors

Author

Cacciapaglia, Giacomo, Deandrea, Aldo, and Isnard, Wanda

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

The attractive feature of supersymmetry is predictive power, due to the large number of calculable properties and to coupling non-renormalisation. This power can be fully expressed in hidden sectors where supersymmetry may be exact, as these sectors are secluded from the visible one where instead supersymmetry must be broken. This suggests a new paradigm for supersymmetric dark sectors, where supersymmetry is exact at the dark matter scale, implying that many properties of hidden supersymmetric dark sectors can be fully computed. As a proof of concept we discuss a concrete example based on $\mathcal{N}=1$ super Yang-Mills., Comment: 4 pages, 3 figures. Supplementary material appended to the main text

Published

2023

9. Maritime transportation and people mobility in the early diffusion of COVID-19 in Croatia

Author

Cot, Corentin, Aksentijević, Dea, Jugović, Alen, Cacciapaglia, Giacomo, and Mannarini, Gianandrea

Subjects

Physics - Physics and Society

Abstract

The outbreak of COVID-19 in Europe occurred in early 2020. During the year, several waves of infection developed with different timings across the European countries. The onset of the largest wave of infection occurred in August-September. Croatia is a hotspot of tourism in the Mediterranean region, and thus may have acted as an incubator of the pandemic during the summer of 2020. Given this, we designed a data-driven investigation to assess the possible role of mobility of passengers to and within Croatia through various modes of transportation. To this end, observational datasets were integrated with the modelling framework of the ``epidemic Renormalisation Group''. Comparing the models to the epidemiological data allowed to disfavour, in the case of Croatia in 2020, any prominent role in propagating the infection by either maritime or train transportation, while highlighting the leading role of both road and airborne mobility. The proposed framework aims to test hypotheses regarding the causation of infectious waves, with the capacity to rule out unrelated phenomena., Comment: 15 pages, 5 figures

Published

2023

10. Asymptotic Ultraviolet-safe Unification of Gauge and Yukawa Couplings: The exceptional case

Author

Cacciapaglia, Giacomo, Deandrea, Aldo, Pasechnik, Roman, and Wang, Zhi-Wei

Subjects

High Energy Physics - Theory

Abstract

The ultimate dream of unification models consists in combining both gauge and Yukawa couplings into one unified coupling. This is achieved by using a supersymmetric exceptional ${\rm E}_6$ gauge symmetry together with asymptotic unification in compact five-dimensional space-time. The ultraviolet fixed point requires exactly three fermion generations: one in the bulk, and the two light ones localised on the ${\rm SO}(10)$ boundary in order to cancel gauge anomalies. A second option allows to preserve baryon number and to lower the compactification scale down to the typical scales of the intermediate Pati-Salam gauge theory., Comment: 4 pages, 3 figures, supplementary material appended to the main file

Published

2023

11. Dark top partner

Author

Cai, Haiying and Cacciapaglia, Giacomo

Subjects

High Energy Physics - Phenomenology

Abstract

Composite Higgs models with extended symmetries can feature mesonic dark matter candidates. In fundamental CHMs, the origin of dark parity can be explained in the UV theory. Combined with top partial compositeness, this leads to non-chiral Yukawa interaction connecting mesonic DM with one dark top partner and one SM top. We examine the DM phenomenology in SU(6)/SO(6) and SU(6)/Sp(6) CHMs with the presence of dark top partners. Phenomenological constraints require the mass of top partner in even parity to be of the multi-TeV order., Comment: 34 pages, 2 figures and 4 tables; Add discussion of dark parity in the SU(N)xSU(N)/SU(N) realization; Change the definition of ChS with a minus sign; JHEP accepted version

Published

2023

12. Is the muon a third family lepton?

Author

Cacciapaglia, Giacomo, Deandrea, Aldo, and Vatani, Shahram

Subjects

High Energy Physics - Phenomenology

Abstract

We propose a new family structure for the Standard Model fermions, where the muon is assigned to the third family, taking the placeholder from the tau lepton. This reassignment, which is a mere choice of convention in the Standard Model, becomes physically meaningful in the presence of new physics assuming a direct link between quarks and leptons. In fact, when quark and leptons are coupled by new interactions, the choice of which lepton is assigned to a particular quark generation brings physical consequences, revealing potentially meaningful patterns in the masses and mixings, while pointing to precise and testable predictions for experiments., Comment: 4 pages, 2 figures; updated with the latest RK measurement, main discussion and conclusions unchanged; extended version, 6 pages, 2 figures, matching published version

Published

2022

13. SU(5) aGUT: a minimal asymptotic grand unification model

Author

Cacciapaglia, Giacomo, Abdalgabar, Ammar, Cot, Corentin, Cornell, Alan S., Deandrea, Aldo, and Khojali, Mohammed Omer

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We present a new grand unification paradigm, where gauge couplings do not need to be equal at any given scale, instead they run towards the same fixed point in the deep ultraviolet. We provide a concrete example based on SU(5) with a compactified extra space dimension. By construction, fermions are embedded in different SU(5) bulk fields, hence baryon number is conserved and proton decay is forbidden. The lightest Kaluza-Klein tier consists of stable states, providing an asymmetric Dark Matter candidate via their baryonic charges, with a mass of 2.4 TeV. The model features an interesting and predictive flavour structure., Comment: 6 pages, contribution to the 41st International Conference on High Energy physics - ICHEP2022, 6-13 July, 2022, Bologna, Italy

Published

2022

14. The Radiative Flavor Template at the LHC: Lepton non-universality and g-2

Author

Cacciapaglia, Giacomo, Cagnotta, Antimo, Calabrese, Roberta, Carnevali, Francesco, De Iorio, Agostino, Iorio, Alberto Orso Maria, Morisi, Stefano, and Sannino, Francesco

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

The Standard Model of Particle Physics and its description of Nature have been recently challenged by a series of precision measurements performed via different accelerator machines. Statistically significant anomalies emerged in the heavy meson physics sector, when measuring the muon magnetic momentum, and very recently when deducing the mass of the W boson. Here we consider a radiative extension of the Standard Model devised to be sufficiently versatile to reconcile the various experimental results while further predicting the existence of new bosons and fermions with a mass spectrum in the TeV energy scale. The resulting spectrum is, therefore, within the energy reach of the proton-proton collisions at the LHC experiments at CERN. The model investigated here allows to interpolate between composite and elementary extensions of the Standard Model with emphasis on a new modified Yukawa sector that is needed to accommodate the anomalies. Focusing on the radiative regime of the model, we introduce interesting search channels of immediate impact for the ATLAS and CMS experimental programs such as the associate production of Standard Model particles with either invisible or long-lived particles. We further show how to adapt earlier SUSY-motivated searchers of new physics to constrain the spectrum and couplings of the new scalars and fermions. Overall, the new physics template simultaneously accounts for the bulk of the observed experimental anomalies while suggesting a wide spectrum of experimental signatures relevant for the current LHC experiments., Comment: 38 pages, 60 figures, 4 tables

Published

2022

15. Asymptotic Grand Unification: The SO(10) case

Author

Khojali, Mohammed Omer, Cornell, Alan S., Deandrea, Aldo, Cacciapaglia, Giacomo, Abdalgabar, Ammar, and Cot, Corentin

Subjects

High Energy Physics - Phenomenology

Abstract

We explicitly test the asymptotic grand unification of a minimal 5-dimensional model with SO(10) gauge theory compactified on an $S^{1}/Z_{2}\times Z^{\prime}_{2}$ orbifold. We consider all matter fields as propagating in the bulk and show that the gauge couplings asymptotically run to a fixed point in the UV. However, the Yukawa couplings will typically hit a Landau pole right above the compactification scale in this class of SO(10) models., Comment: 6 pages, 1 figure, submitted to the PACP2022 conference proceedings

Published

2022

16. TF08 Snowmass Report: BSM Model Building

Author

Fox, Patrick J., Kribs, Graham D., Murayama, Hitoshi, Aboubrahim, Amin, Agrawal, Prateek, Altmannshofer, Wolfgang, Baer, Howard, Banerjee, Avik, Barger, Vernon, Batell, Brian, Berghaus, Kim V., Berlin, Asher, Blinov, Nikita, Franzosi, Diogo Buarque, Cacciapaglia, Giacomo, Cesarotti, Cari, Craig, Nathaniel, Csáki, Csaba, D'Agnolo, Raffaele Tito, De Vries, Jordy, Deandrea, Aldo, Dolan, Matthew J., Draper, Patrick, Elor, Gilly, Fan, JiJi, Feng, Wan-Zhe, Ferretti, Gabriele, Flacke, Thomas, Fuks, Benjamin, Harigaya, Keisuke, Harz, Julia, Hook, Anson, Ipek, Seyda, Karch, Andreas, Kunkel, Manuel, Lillard, Benjamin, Low, Matthew, Marques-Tavares, Gustavo, Mishra, Rashmish K., Nath, Pran, Neil, Ethan T., Panizzi, Luca, Porod, Werner, Randall, Lisa, Reece, Matthew, Rudelius, Tom, Salam, Shadman, Schwarze, Leonard, Sengupta, Dibyashree, Shakya, Bibhushan, Shelton, Jessie, Sundrum, Raman, Teresi, Daniele, Verhaaren, Christopher B., Wang, Zhu-Yao, and Zupan, Jure

Subjects

High Energy Physics - Phenomenology

Abstract

We summarize the state of Beyond the Standard Model (BSM) model building in particle physics for Snowmass 2021, focusing mainly on several whitepaper contributions to BSM model building (TF08) and closely related areas., Comment: 44 pages, 1 figure, Submitted to the Proceedings of the US Community Study on the Future of Particle Physics (Snowmass 2021). Topical Group Report for TF08 - BSM Model Building

Published

2022

17. Report of the Topical Group on Physics Beyond the Standard Model at Energy Frontier for Snowmass 2021

Author

Bose, Tulika, Boveia, Antonio, Doglioni, Caterina, Griso, Simone Pagan, Hirschauer, James, Lipeles, Elliot, Liu, Zhen, Shah, Nausheen R., Wang, Lian-Tao, Agashe, Kaustubh, Alimena, Juliette, Baum, Sebastian, Berkat, Mohamed, Black, Kevin, Gardner, Gwen, Gherghetta, Tony, Greaves, Josh, Haehn, Maxx, Harris, Phil C., Harris, Robert, Hogan, Julie, Jayawardana, Suneth, Kahn, Abraham, Kalinowski, Jan, Knapen, Simon, Lewis, Ian M., Narain, Meenakshi, Pachal, Katherine, Reece, Matthew, Reina, Laura, Robens, Tania, Tricoli, Alessandro, Wagner, Carlos E. M., Xu, Riley, Yu, Felix, Zarnecki, Filip, Aboubrahim, Amin, Albert, Andreas, Albrow, Michael, Altmannshofer, Wolfgang, Andonian, Gerard, Apresyan, Artur, Assamagan, Kétévi Adikle, Azzi, Patrizia, Baer, Howard, Baker, Michael J., Banerjee, Avik, Barger, Vernon, Batell, Brian, Bauer, Martin, Beauchesne, Hugues, Bein, Samuel, Belyaev, Alexander, Beniwal, Ankit, Berggren, Mikael, Bhattiprolu, Prudhvi N., Blinov, Nikita, Blondel, Alain, Brandt, Oleg, Cacciapaglia, Giacomo, Capdevilla, Rodolfo, Carena, Marcela, Cazzaniga, Cesare, Celiberto, Francesco Giovanni, Cesarotti, Cari, Chekanov, Sergei V., Cheng, Hsin-Chia, Chen, Thomas Y., Chen, Yuze, Chivukula, R. Sekhar, Citron, Matthew, Cline, James, Cohen, Tim, Collins, Jack H., Corrigan, Eric, Craig, Nathaniel, Craik, Daniel, Crivellin, Andreas, Curtin, David, Darmora, Smita, Das, Arindam, Dasu, Sridhara, de Cosa, Annapaola, Deandrea, Aldo, Delgado, Antonio, Demiragli, Zeynep, d'Enterria, David, Deppisch, Frank F., Dermisek, Radovan, Desai, Nishita, Deshpande, Abhay, de Vries, Jordy, Dickinson, Jennet, Dienes, Keith R., Di Petrillo, Karri Folan, Dolan, Matthew J., Dong, Peter, Draper, Patrick, Drewes, Marco, Dreyer, Etienne, Du, Peizhi, Eble, Florian, Ekhterachian, Majid, Endo, Motoi, Essig, Rouven, Farr, Jesse N., Fassi, Farida, Feng, Jonathan L., Ferretti, Gabriele, Filipetto, Daniele, Flacke, Thomas, Franceschini, Roberto, Franzosi, Diogo Buarque, Fujii, Keisuke, Fuks, Benjamin, Gadam, Sri Aditya, Gao, Boyu, Garcia-Bellido, Aran, Garcia, Isabel Garcia, Garzelli, Maria Vittoria, Gedney, Stephen, Genest, Marie-Hélène, Ghosh, Tathagata, Golkowski, Mark, di Cortona, Giovanni Grilli, Guler, Emine Gurpinar, Guler, Yalcin, Guo, C., Graf, Nate, Haisch, Ulrich, Hajer, Jan, Hamaguchi, Koichi, Han, Tao, Harris, Philip, Heinemeyer, Sven, Hill, Christopher S., Hiltbrand, Joshua, Holmes, Tova Ray, Homiller, Samuel, Hong, Sungwoo, Hopkins, Walter, Hsu, Shih-Chieh, Ilten, Phil, Islam, Wasikul, Iwamoto, Sho, Jeans, Daniel, Jeanty, Laura, Jia, Haoyi, Jindariani, Sergo, Johnson, Daniel, Kahlhoefer, Felix, Kahn, Yonatan, Karchin, Paul, Katsouleas, Thomas, Kawada, Shin-ichi, Kawamura, Junichiro, Kelso, Chris, Khoda, Elham E, Khoze, Valery, Kim, Doojin, Kitahara, Teppei, Klaric, Juraj, Klasen, Michael, Kong, Kyoungchul, Kotlarski, Wojciech, Kotwal, Ashutosh V., Kozaczuk, Jonathan, Kriske, Richard, Kulkarni, Suchita, Kumar, Jason, Kunkel, Manuel, Landsberg, Greg, Lane, Kenneth, Lange, Clemens, Lee, Lawrence, Liao, Jiajun, Lillard, Benjamin, Li, Lingfeng, Li, Shuailong, Li, Shu, List, Jenny, Li, Tong, Liu, Hongkai, Liu, Jia, Long, Jonathan D, Lunghi, Enrico, Lyu, Kun-Feng, Marfatia, Danny, Martinez, Dakotah, Martin, Stephen P., McGinnis, Navin, McGinty, Karrick, Mękała, Krzysztof, Meloni, Federico, Mikulenko, Oleksii, Huang, Ming, Mishra, Rashmish K., Mitra, Manimala, Mitsou, Vasiliki A., Moon, Chang-Seong, Moreno, Alexander, Moroi, Takeo, Mourou, Gerard, Mrowietz, Malte, Muggli, Patric, Nakajima, Jurina, Nath, Pran, Nelson, J., Neubert, Matthias, Nosler, Laura, de Vera, Maria Teresa Núñez Pardo, Okada, Nobuchika, Okada, Satomi, Okorokov, Vitalii A., Onel, Yasar, Ou, Tong, Ovchynnikov, Maksym, Padhan, Rojalin, Pani, Priscilla, Panizzi, Luca, Papaefstathiou, Andreas, Pedro, Kevin, Peña, Cristián, Piazza, Federica, Pinfold, James, Pinna, Deborah, Porod, Werner, Potter, Chris, Prim, Markus Tobias, Profumo, Stefano, Proudfoot, James, Rai, Mudit, Rajec, Filip, Ramos, Reese, Ramsey-Musolf, Michael J., Resta-Lopez, Javier, Reuter, Jürgen, Ringwald, Andreas, Rizzi, Chiara, Rizzo, Thomas G., Rossi, Giancarlo, Ruiz, Richard, Rygaard, L., Sahai, Aakash A., Salam, Shadman, Sandick, Pearl, Sathyan, Deepak, Scherb, Christiane, Schwaller, Pedro, Schwarze, Leonard, Scott, Pat, Sekmen, Sezen, Sengupta, Dibyashree, Sen, S., Sfyrla, Anna, Shackelford, Eric, Sharma, T., Sharma, Varun, Shelton, Jessie, Shepherd, William, Shin, Seodong, Simmons, Elizabeth H., Sloneker, Zoie, Sierra, Carlos Vázquez, Sjöstrand, Torbjörn, Snyder, Scott, Song, Huayang, Stark, Giordon, Stengel, Patrick, Stohr, Joachim, Stolarski, Daniel, Strassler, Matt, Strobbe, Nadja, Gonski, Julia, Suarez, Rebeca Gonzalez, Suehara, Taikan, Su, Shufang, Su, Wei, Syed, Raza M., Tait, Tim M. P., Tajima, Toshiki, Tang, Andy, Tata, Xerxes, Tchalokov, Teodor, Thamm, Andrea, Thomas, Brooks, Toro, Natalia, Tran, Nhan V., Truong, Loan, Tsai, Yu-Dai, Tuecke, Eva, Venkatasubramanian, Nikhilesh, Verhaaren, Chris B., Vuosalo, Carl, Wang, Xiao-Ping, Wang, Xing, Wang, Yikun, Wang, Zhen, Weber, Christian, White, Glen, White, Martin, Williams, Anthony G., Williams, Brady, Williams, Mike, Willocq, Stephane, Woodcock, Alex, Wu, Yongcheng, Xie, Ke-Pan, Xie, Keping, Xie, Si, Yeh, C. -H., Yonamine, Ryo, Yu, David, Yu, S. -S., Zaazoua, Mohamed, Żarnecki, Aleksander Filip, Zembaczynski, Kamil, Zhang, Danyi, Zhang, Jinlong, Zimmermann, Frank, and Zurita, Jose

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

This is the Snowmass2021 Energy Frontier (EF) Beyond the Standard Model (BSM) report. It combines the EF topical group reports of EF08 (Model-specific explorations), EF09 (More general explorations), and EF10 (Dark Matter at Colliders). The report includes a general introduction to BSM motivations and the comparative prospects for proposed future experiments for a broad range of potential BSM models and signatures, including compositeness, SUSY, leptoquarks, more general new bosons and fermions, long-lived particles, dark matter, charged-lepton flavor violation, and anomaly detection., Comment: 108 pages + 38 pages references and appendix, 37 figures, Report of the Topical Group on Beyond the Standard Model Physics at Energy Frontier for Snowmass 2021. The first nine authors are the Conveners, with Contributions from the other authors

Published

2022

18. Partial compositeness under precision scrutiny

Author

Cai, Haiying and Cacciapaglia, Giacomo

Subjects

High Energy Physics - Phenomenology

Abstract

We revisit the impact of top partial compositeness on electroweak precision observables in the misaligned vacuum basis. We identify a new source for $S$ in the singlet mixing case, and for $S$-$T$ in the bi-doublet mixing, stemming from misalignment in the gauge couplings of the top partners. Hence, a positive shift in $T$ can be obtained in both cases, as preferred by the recent CDF measurement of the $W$ mass. These results, obtained for the minimal fundamental coset SU(4)/Sp(4), apply to any composite Higgs model with top partial compositeness., Comment: 33 pages and 2 figures; Accepted by JHEP, v2 appendix updated

Published

2022

19. The W boson mass weighs in on the non-standard Higgs

Author

Cacciapaglia, Giacomo and Sannino, Francesco

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice

Abstract

We consider the implications of the CDF collaboration high-precision measurement of the W boson mass on models with a non-standard Higgs. We show that this requires an enhancement of 3-10% in the non-standard Higgs coupling to the gauge bosons. This is naturally accommodated in dynamical models such as the dilaton Higgs, the Technicolor and glueball Higgs. The needed composite scale between 2 and 3 TeV can also explain the muon g-2 anomaly, as well as possible violations of lepton flavour universality.

Published

2022

20. Phenomenological aspects of composite Higgs scenarios: exotic scalars and vector-like quarks

Author

Banerjee, Avik, Franzosi, Diogo Buarque, Cacciapaglia, Giacomo, Deandrea, Aldo, Ferretti, Gabriele, Flacke, Thomas, Fuks, Benjamin, Kunkel, Manuel, Panizzi, Luca, Porod, Werner, and Schwarze, Leonard

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

Composite Higgs models usually contain additional pseudo Nambu Goldstone bosons and vector-like quarks. We discuss various aspects related to their LHC phenomenology and provide summary plots of exclusion limits using currently available information. We also describe a general parametrisation implemented in a software for Monte Carlo simulations and study the SU(5)/SO(5) scenario as a concrete example., Comment: contribution to Snowmass 2021. V2: Fig. 4 updated, V3: Figures and references updated

Published

2022

21. Minimal Consistent Dark Matter models for systematic experimental characterisation: Fermion Dark Matter

Author

Belyaev, Alexander, Cacciapaglia, Giacomo, Locke, Daniel, and Pukhov, Alexander

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

The search for a Dark Matter particle is the new grail and hard-sought nirvana of the particle physics community. From the theoretical side, it is the main challenge to provide a consistent and model-independent tool for comparing the bounds and reach of the diverse experiments. We propose a first complete classification of minimal consistent Dark Matter models, which provides the missing link between experiments and top-down models. Consistency is achieved by imposing renormalisability and invariance under the full Standard Model symmetries. We apply this paradigm to fermionic Dark multiplets with up to one mediator. We also reconsider the one-loop contributions to direct detection, including the relevant effect of (small) mass splits in the Dark multiplet. Our work highlights the presence of unexplored viable models, and paves the way for the ultimate systematic hunt for the Dark Matter particle., Comment: 55 pages, 19 figures

Published

2022

22. Minimal Consistent models for systematic Dark Matter exploration

Author

Belyaev, Alexander, Cacciapaglia, Giacomo, and Locke, Daniel

Subjects

High Energy Physics - Phenomenology

Abstract

Dark Matter searches in collider and non-collider experiments requires systematic and consistent approach. We suggest and perform classification of Minimal Consistent Dark Matter models which are aimed to create a solid framework for Dark Matter exploration., Comment: 10 pages, 3 figures, contribution to 55th Rencontres de Moriond on QCD and High Energy Interactions (Moriond QCD 2021)(C21-03-27), March 27-April 3, 2021

Published

2022

23. Phenomenology of unusual top partners in composite Higgs models

Author

Cacciapaglia, Giacomo, Flacke, Thomas, Kunkel, Manuel, and Porod, Werner

Subjects

High Energy Physics - Phenomenology

Abstract

We consider a particular composite Higgs model which contains SU(3) color octet top partners besides the usually considered triplet representations. Moreover, color singlet top partners are present as well which can in principle serve as dark matter candidates. We investigate the LHC phenomenology of these unusual top partners. Some of these states could be confused with gluinos predicted in supersymmetric models at first glance., Comment: 29 pages, 10 figures + appendices; v2: matches published version

Published

2021

24. Techni-Composite Higgs models with (a)symmetric dark matter candidates

Author

Cacciapaglia, Giacomo, Frandsen, Mads T., Huang, Wei-Chih, Rosenlyst, Martin, and Sørensen, Philip

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We propose a novel class of composite models that feature both a technicolor and a composite Higgs vacuum limit, resulting in an asymmetric dark matter candidate. These Techni-Composite Higgs models are based on an extended left-right electroweak symmetry with a pseudo-Nambu Goldstone boson Higgs and stable dark matter candidates charged under a global $\mathrm{U}(1)_X$ symmetry, connected to the baryon asymmetry at high temperatures via the $SU(2)_{\rm R}$ sphaleron. We consider, as explicit examples, four-dimensional gauge theories with fermions charged under a new confining gauge group $G_{\rm HC} $., Comment: 4 pages + bibliography + 7 pages of supplementary material, 1 figure

Published

2021

25. Nordic vaccination strategies face/off via age range comparative analysis on key indicators of COVID-19 severity and healthcare stress level

Author

Islind, Anna Sigridur, Óskarsdóttir, María, Cot, Corentin, Cacciapaglia, Giacomo, and Sannino, Francesco

Subjects

Quantitative Biology - Populations and Evolution

Abstract

In this paper we analyze the impact of vaccinations on spread of the COVID-19 virus for different age groups. More specifically we examine the deployment of vaccines in the Nordic countries in a comparative analysis where we analyze factors such as healthcare stress level and severity of disease through new infections, hospitalizations, intensive care unit (ICU) occupancy and deaths. Moreover, we analyze the impact of the various vaccine types, vaccination rate on the spread of the virus in each age group for Denmark, Finland, Iceland, Norway and Sweden from the start of the vaccination period in December 2020 until the end of August 2021. We perform a three-fold analysis: i) frequency analysis of infections and vaccine rates by age groups, ii) rolling correlations between vaccination strategies, severity of COVID-19 and healthcare stress level and; iii) we also employ the epidemic Renormalization Group (eRG) framework. The latter is used to mathematically model wave structures, as well as the impact of vaccinations on wave dynamics. We further compare the Nordic countries with England. Our main results are the quantification of the impact of the vaccination campaigns on age groups epidemiological data, across countries with high vaccine uptake. The data clearly shows that vaccines markedly reduce the number of new cases and the risk of serious illness., Comment: 22 pages, 12 figures

Published

2021

26. Effective Mathematical Modelling of Health Passes during a Pandemic

Author

Cacciapaglia, Giacomo, Hohenegger, Stefan, and Sannino, Francesco

Subjects

Quantitative Biology - Populations and Evolution, Physics - Physics and Society

Abstract

We study the impact on the epidemiological dynamics of a class of restrictive measures that are aimed at reducing the number of contacts of individuals who have a higher risk of being infected with a transmittable disease. Such measures are currently either implemented or at least discussed in numerous countries worldwide to ward off a potential new wave of COVID-19 across Europe. They come in the form of Health Passes (HP), which grant full access to public life only to individuals with a certificate that proves that they have either been fully vaccinated, have recovered from a previous infection or have recently tested negative to SARS-Cov-19 . We develop both a compartmental model as well as an epidemic Renormalisation Group approach, which is capable of describing the dynamics over a longer period of time, notably an entire epidemiological wave. Introducing different versions of HPs in this model, we are capable of providing quantitative estimates on the effectiveness of the underlying measures as a function of the fraction of the population that is vaccinated and the vaccination rate. We apply our models to the latest COVID-19 wave in several European countries, notably Germany and Austria, which validate our theoretical findings., Comment: 40 pages, 39 figures

Published

2021

27. Massive Gravitons as Feebly Interacting Dark Matter Candidates

Author

Cai, Haiying, Cacciapaglia, Giacomo, and Lee, Seung J.

Subjects

High Energy Physics - Phenomenology

Abstract

We detailed our discovery of a chiral enhancement in the production cross sections of massive spin-2 gravitons, below the electroweak symmetry breaking scale, that makes them ideal dark matter candidates for the freeze-in mechanism. The result is independent of the physics at high scales, and points toward masses in the keV- MeV range. The graviton is, therefore, a sub-MeV dark matter particle, as favored by the small scale galaxy structures. We apply the novel calculation to a Randall-Sundrum model with multiple branes, showing a significant parameter space where the first two massive gravitons saturate the dark matter relic density., Comment: 6 pages plus appendix, 2 figures; published version

Published

2021

28. Variant-driven multi-wave pattern of COVID-19 via a Machine Learning analysis of spike protein mutations

Author

de Hoffer, Adele, Vatani, Shahram, Cot, Corentin, Cacciapaglia, Giacomo, Chiusano, Maria Luisa, Cimarelli, Andrea, Conventi, Francesco, Giannini, Antonio, Hohenegger, Stefan, and Sannino, Francesco

Subjects

Quantitative Biology - Genomics

Abstract

Applying a ML approach to the temporal variability of the Spike protein sequence enables us to identify, classify and track emerging virus variants. Our analysis is unbiased, in the sense that it does not require any prior knowledge of the variant characteristics, and our results are validated by other informed methods that define variants based on the complete genome. Furthermore, correlating persistent variants of our approach to epidemiological data, we discover that each new wave of the COVID-19 pandemic is driven and dominated by a new emerging variant. Our results are therefore indispensable for further studies on the evolution of SARS-CoV-2 and the prediction of evolutionary patterns that determine current and future mutations of the Spike proteins, as well as their diversification and persistence during the viral spread. Moreover, our ML algorithm works as an efficient early warning system for the emergence of new persistent variants that may pose a threat of triggering a new wave of COVID-19. Capable of a timely identification of potential new epidemiological threats when the variant only represents 1% of the new sequences, our ML strategy is a crucial tool for decision makers to define short and long term strategies to curb future outbreaks. The same methodology can be applied to other viral diseases, influenza included, if sufficient sequencing data is available., Comment: 16 pages, 6 figures, supplementary material in a separate file. Analysis extended with early warning performance and spike protein diversification

Published

2021

29. Redefining pandemic preparedness: Multidisciplinary insights from the CERP modelling workshop in infectious diseases, workshop report

Author

Nunes, Marta C., Thommes, Edward, Fröhlich, Holger, Flahault, Antoine, Arino, Julien, Baguelin, Marc, Biggerstaff, Matthew, Bizel-Bizellot, Gaston, Borchering, Rebecca, Cacciapaglia, Giacomo, Cauchemez, Simon, Barbier--Chebbah, Alex, Claussen, Carsten, Choirat, Christine, Cojocaru, Monica, Commaille-Chapus, Catherine, Hon, Chitin, Kong, Jude, Lambert, Nicolas, Lauer, Katharina B., Lehr, Thorsten, Mahe, Cédric, Marechal, Vincent, Mebarki, Adel, Moghadas, Seyed, Niehus, Rene, Opatowski, Lulla, Parino, Francesco, Pruvost, Gery, Schuppert, Andreas, Thiébaut, Rodolphe, Thomas-Bachli, Andrea, Viboud, Cecile, Wu, Jianhong, Crépey, Pascal, and Coudeville, Laurent

Published

2024

30. Epidemiological theory of virus variants

Author

Cacciapaglia, Giacomo, Cot, Corentin, de Hoffer, Adele, Hohenegger, Stefan, Sannino, Francesco, and Vatani, Shahram

Subjects

Quantitative Biology - Populations and Evolution, Physics - Physics and Society

Abstract

We propose a physical theory underlying the temporal evolution of competing virus variants that relies on the existence of (quasi) fixed points capturing the large time scale invariance of the dynamics. To motivate our result we first modify the time-honoured compartmental models of the SIR type to account for the existence of competing variants and then show how their evolution can be naturally re-phrased in terms of flow equations ending at quasi fixed points. As the natural next step we employ (near) scale invariance to organise the time evolution of the competing variants within the effective description of the epidemic Renormalization Group framework. We test the resulting theory against the time evolution of COVID-19 virus variants that validate the theory empirically., Comment: 38 pages, 32 figures

Published

2021

31. Exploring new possibilities to discover a light pseudo-scalar at LHCb

Author

Franzosi, Diogo Buarque, Cacciapaglia, Giacomo, Vidal, Xabier Cid, Ferretti, Gabriele, Flacke, Thomas, and Sierra, Carlos Vázquez

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

We study the possibility of observing a light pseudo-scalar $a$ at LHCb. We target the mass region $1 \lesssim m_a \lesssim 60$ GeV and various decay channels, some of which have never been considered before: muon pairs, tau pairs, $D$ meson pairs, and di-photon. We interpret the results in the context of models of 4D Composite Higgs and Partial Compositeness in particular., Comment: 15 pages, 13 figures, 6 tables. Final version published in EPJC

Published

2021

32. Unleashing the full power of LHCb to probe Stealth New Physics

Author

Borsato, Martino, Vidal, Xabier Cid, Tsai, Yuhsin, Sierra, Carlos Vázquez, Zurita, José, Alonso-Álvarez, Gonzalo, Boyarsky, Alexey, Rodríguez, Alexandre Brea, Franzosi, Diogo Buarque, Cacciapaglia, Giacomo, Vidal, Adrián Casais, Du, Mingxuan, Elor, Gilly, Escudero, Miguel, Ferretti, Gabriele, Flacke, Thomas, Foldenauer, Patrick, Hajer, Jan, Henry, Louis, Ilten, Philip, Kamenik, Jernej, Jashal, Brij Kishor, Knapen, Simon, Redi, Federico Leo, Low, Matthew, Liu, Zuowei, Campos, Arantza Oyanguren, Polycarpo, Erica, Ramos, Maria, Pernas, Miguel Ramos, Salvioni, Ennio, Rangel, Murilo Santana, Schäfer, Ruth, Sestini, Lorenzo, Soreq, Yotam, Tran, Van Que, Timiryasov, Inar, van Veghel, Maarten, Westhoff, Susanne, Williams, Michael, and Zupan, Jure

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Theory

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., Comment: 82 pages, 31 figures. This is the version of the article before peer review or editing, as submitted by an author to Reports on Progress in Physics. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at doi:10.1088/1361-6633/ac4649

Published

2021

33. Naturalness of lepton non-universality and muon g-2

Author

Cacciapaglia, Giacomo, Cot, Corentin, and Sannino, Francesco

Subjects

High Energy Physics - Phenomenology

Abstract

We show that the observed anomalies in the lepton sector can be explained in extensions of the Standard Model that are natural and, therefore, resolve the Higgs sector hierarchy problem. The scale of new physics is around the TeV and Technicolor-like theories are ideal candidate models., Comment: 5 pages, 2 figures

Published

2021

34. The field theoretical ABC of epidemic dynamics

Author

Cacciapaglia, Giacomo, Cot, Corentin, Della Morte, Michele, Hohenegger, Stefan, Sannino, Francesco, and Vatani, Shahram

Subjects

Quantitative Biology - Populations and Evolution, High Energy Physics - Lattice, High Energy Physics - Theory, Physics - Physics and Society

Abstract

Infectious diseases are a threat for human health with tremendous impact on our society at large. The recent COVID-19 pandemic, caused by the SARS-CoV-2, is the latest example of a highly infectious disease ravaging the world, since late 2019. It is therefore imperative to develop efficient mathematical models, able to substantially curb the damages of a pandemic by unveiling disease spreading dynamics and symmetries. This will help inform (non)-pharmaceutical prevention strategies. For the reasons above we wrote this report that goes at the heart of mathematical modelling of infectious disease diffusion by simultaneously investigating the underlying microscopic dynamics in terms of percolation models, effective description via compartmental models and the employment of temporal symmetries naturally encoded in the mathematical language of critical phenomena. Our report reviews these approaches and determines their common denominators, relevant for theoretical epidemiology and its link to important concepts in theoretical physics. We show that the different frameworks exhibit common features such as criticality and self-similarity under time rescaling. These features are naturally encoded within the unifying field theoretical approach. The latter leads to an efficient description of the time evolution of the disease via a framework in which (near) time-dilation invariance is explicitly realised. As important test of the relevance of symmetries we show how to mathematically account for observed phenomena such as multi-wave dynamics. The models presented here are of immediate relevance for different realms of scientific enquiry from medical applications to the understanding of human behaviour. Our review offers novel perspectives on how to model, capture, organise and understand epidemiological data and disease dynamics for modelling real-world phenomena., Comment: 57 pages, 40 figures. Article expanded into a review. Prepared for submission to Physics Reports

Published

2021

35. Understanding Epidemic Multi-wave Patterns via Machine Learning Clustering and the Epidemic Renormalization Group

Author

Vatani, Shahram, Cacciapaglia, Giacomo, Haskell, Deirdre, Editorial Board Member, Jeffrey, Lisa C., Editorial Board Member, Li, Winnie, Editorial Board Member, Murty, V. Kumar, Editorial Board Member, Vakil, Ravi, Editorial Board Member, David, Jummy, editor, and Wu, Jianhong, editor

Published

2023

36. Minimal SU(5) Asymptotic Grand Unification

Author

Cacciapaglia, Giacomo, Cornell, Alan S., Cot, Corentin, and Deandrea, Aldo

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We present a minimal model of asymptotic grand unification based on an $SU(5)$ gauge theory in a compact $S^1/(\mathbb{Z}_2 \times \mathbb{Z}'_2)$ orbifold. The gauge couplings run to a unified fixed point in the UV, without supersymmetry. By construction, fermions are embedded in different $SU(5)$ bulk fields. As a consequence, baryon number is conserved, thus preventing proton decay, and the lightest Kaluza-Klein tier consists of new states that cannot decay into standard model ones. We show that the Yukawa couplings can be either in the bulk or localized, and run to an asymptotically free fixed point in the UV. The lightest massive state can play the role of Dark Matter, produced via baryogenesis, for a Kaluza-Klein mass of about $2.4$ TeV., Comment: 22 pages, 3 figures. v2: Extended discussion of the Yukawa running

Published

2020

37. You better watch out: US COVID-19 wave dynamics versus vaccination strategy

Author

Cacciapaglia, Giacomo, Cot, Corentin, Islind, Anna Sigridur, Óskarsdóttir, María, and Sannino, Francesco

Subjects

Physics - Physics and Society, Quantitative Biology - Populations and Evolution

Abstract

We employ the epidemic Renormalization Group (eRG) framework to understand, reproduce and predict the COVID-19 pandemic diffusion across the US. The human mobility across different geographical US divisions is modelled via open source flight data alongside the impact of social distancing for each such division. We analyse the impact of the vaccination strategy on the current pandemic wave dynamics in the US. We observe that the ongoing vaccination campaign will not impact the current pandemic wave and therefore strict social distancing measures must still be enacted. To curb the current and the next waves our results indisputably show that vaccinations alone are not enough and strict social distancing measures are required until sufficient immunity is achieved. Our results are essential for a successful vaccination strategy in the US., Comment: 10 pages, 15 figures. V2: data and vaccination rates adjourned to March 2021

Published

2020

38. Multiwave pandemic dynamics explained: How to tame the next wave of infectious diseases

Author

Cacciapaglia, Giacomo, Cot, Corentin, and Sannino, Francesco

Subjects

Physics - Physics and Society, Quantitative Biology - Populations and Evolution

Abstract

Pandemics, like the 1918 Spanish Influenza and COVID-19, spread through regions of the World in subsequent waves. There is, however, no consensus on the origin of this pattern, which may originate from human behaviour rather than from the virus diffusion itself. Time-honoured models of the SIR type or others based on complex networks describe well the exponential spread of the disease, but cannot naturally accommodate the wave pattern. Nevertheless, understanding this time-structure is of paramount importance in designing effective prevention measures. Here we propose a consistent picture of the wave pattern based on the epidemic Renormalisation Group (eRG) framework, which is guided by the global symmetries of the system under time rescaling. We show that the rate of spreading of the disease can be interpreted as a time-dilation symmetry, while the final stage of an epidemic episode corresponds to reaching a time scale-invariant state. We find that the endemic period between two waves is a sign of instability in the system, associated to near-breaking of the time scale-invariance. This phenomenon can be described in terms of an eRG model featuring complex fixed points. Our results demonstrate that the key to control the arrival of the next wave of a pandemic is in the strolling period in between waves, i.e. when the number of infections grow linearly. Thus, limiting the virus diffusion in this period is the most effective way to prevent or delay the arrival of the next wave. In this work we establish a new guiding principle for the formulation of mid-term governmental strategies to curb pandemics and avoid recurrent waves of infections, deleterious in terms of human life loss and economic damage., Comment: 12 pages, 5 figures

Published

2020

39. Loop-Generated Neutrino Masses in Composite Higgs Models

Author

Cacciapaglia, Giacomo and Rosenlyst, Martin

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We present a composite scotogenic model for neutrino masses, which are generated via loops of $\mathbb{Z}_2$-odd composite scalars. We consider three different approaches to the couplings of the neutrinos (including three right-handed singlets) and the composite sector: ETC-like four-fermion interactions, fundamental partial compositeness and fermion partial compositeness. In all cases, the model can feature sizeable couplings and remain viable with respect to various experimental constraints if the three $ \mathbb{Z}_2 $-odd right-handed neutrinos have masses between the TeV and the Planck scales. Additionally, the lightest $\mathbb{Z}_2$-odd composite scalar may play the role of Dark Matter, either via thermal freeze-out or as an asymmetric relic. This mechanism can be featured in a variety of models based on vacuum misalignment. For concreteness, we demonstrate it in a composite two-Higgs scheme based on the coset SU(6)/Sp(6).

Published

2020

40. Evidence for complex fixed points in pandemic data

Author

Cacciapaglia, Giacomo and Sannino, Francesco

Subjects

Physics - Physics and Society, Condensed Matter - Statistical Mechanics

Abstract

Epidemic data show the existence of a region of quasi-linear growth (strolling period) of infected cases extending in between waves. We demonstrate that this constitutes evidence for the existence of near time-scale invariance that is neatly encoded via complex fixed points in the epidemic Renormalisation Group approach. As a result we achieve a deeper understanding of multiple wave dynamics and its inter-wave strolling regime. Our results are tested and calibrated against the COVID-19 pandemic data. Because of the simplicity of our approach that is organised around symmetry principles our discovery amounts to a paradigm shift in the way epidemiological data are mathematically modelled., Comment: 9 pages, 4 figures

Published

2020

41. Mining Google and Apple mobility data: Temporal Anatomy for COVID-19 Social Distancing

Author

Cacciapaglia, Giacomo, Cot, Corentin, and Sannino, Francesco

Subjects

Physics - Physics and Society, Computer Science - Social and Information Networks

Abstract

We employ the Google and Apple mobility data to identify, quantify and classify different degrees of social distancing and characterise their imprint on the first wave of the COVID-19 pandemic in Europe and in the United States. We identify the period of enacted social distancing via Google and Apple data, independently from the political decisions. Interestingly we observe a general decrease in the infection rate occurring two to five weeks after the onset of mobility reduction for the European countries and the American states., Comment: 10 pages, 2 figures, supplementary material included (4 figures and 4 tables)

Published

2020

42. Second wave COVID-19 pandemics in Europe: A Temporal Playbook

Author

Cacciapaglia, Giacomo, Cot, Corentin, and Sannino, Francesco

Subjects

Physics - Physics and Society, Quantitative Biology - Populations and Evolution

Abstract

A second wave pandemic constitutes an imminent threat to society, with a potentially immense toll in terms of human lives and a devastating economic impact. We employ the epidemic renormalisation group approach to pandemics, together with the first wave data for COVID-19, to efficiently simulate the dynamics of disease transmission and spreading across different European countries. The framework allows us to model, not only inter and extra European border control effects, but also the impact of social distancing for each country. We perform statistical analyses averaging on different level of human interaction across Europe and with the rest of the world. Our results are neatly summarised as an animation reporting the time evolution of the first and second waves of the European COVID-19 pandemic. Our temporal playbook of the second wave pandemic can be used by governments, financial markets, the industries and individual citizens, to efficiently time, prepare and implement local and global measures., Comment: 6 pages, 6 figures. For the video animation, see https://youtu.be/qbC3_uekkBE

Published

2020

43. A Singlet Dark Matter in the SU(6)/SO(6) Composite Higgs Model

Author

Cai, Haiying and Cacciapaglia, Giacomo

Subjects

High Energy Physics - Phenomenology

Abstract

Singlet scalar Dark Matter can naturally arise in composite Higgs models as an additional stable pseudo-Nambu-Goldstone boson. We study the properties of such a candidate in a model based on $SU(6)/SO(6)$, with the light quark masses generated by 4-fermion interactions. The presence of non-linearities in the couplings allows to saturate the relic density for masses $400 < m_{\rm DM} < 1000$ GeV, and survive the bound from Direct Detection and Indirect Detection. The viable parameter regions are in reach of the sensitivities of future upgrades, like XENONnT and LZ., Comment: 12 pages and 4 figures; v2 minor improvement

Published

2020

44. XENON1T solar axion and the Higgs boson emerging from the dark

Author

Cacciapaglia, Giacomo, Cai, Chengfeng, Frandsen, Mads T., Rosenlyst, Martin, and Zhang, Hong Hao

Subjects

High Energy Physics - Phenomenology

Abstract

In a recent letter we proposed a new non-thermal mechanism of Dark Matter production based on vacuum misalignment, where both the Higgs boson and a very light pseudo-scalar $\eta$ emerge from the Dark sector. In this letter, we identify the parameter space in a composite scenario where the light pseudo-scalar can be produced in the sun and explain the XENON1T excess in electron recoil data. The model's Dark Matter candidate has a mass around $50$ TeV and out of range for Direct Detection. Testable predictions include Gravitational waves at frequencies in the Hz range from a cosmological phase transition, an exotic decay $Z \to \gamma + \mbox{inv.}$ with rates $4 \div 16 \cdot 10^{-12}$ testable at a future Tera-Z collider, and an enhancement by $17\div 40$ % of the branching ratio $K_L \to \pi^0 + \mbox{inv.}$, not enough to explain the KOTO anomaly. All these predictions may be confirmed by future experiments., Comment: 6 pages, 2 figures

Published

2020

45. The Techni-Pati-Salam Composite Higgs

Author

Cacciapaglia, Giacomo, Vatani, Shahram, and Zhang, Chen

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice

Abstract

Composite Higgs models can be extended to the Planck scale by means of the partially unified partial compositeness (PUPC) framework. We present in detail the Techni-Pati-Salam model, based on a renormalizable gauge theory $SU(8)_{PS}\times SU(2)_L\times SU(2)_R$. We demonstrate that masses and mixings for all generations of standard model fermions can be obtained via partial compositeness at low energy, with four-fermion operators mediated by either heavy gauge bosons or scalars. The strong dynamics is predicted to be that of a confining $Sp(4)_{\rm HC}$ gauge group, with hyper-fermions in the fundamental and two-index anti-symmetric representations, with fixed multiplicities. This motivates for Lattice studies of the Infra-Red near-conformal walking phase, with results that may validate or rule out the model. This is the first complete and realistic attempt at providing an Ultra-Violet completion for composite Higgs models with top partial compositeness. In the baryon-number conserving vacuum, the theory also predicts a Dark Matter candidate, with mass in the few TeV range, protected by semi-integer baryon number., Comment: 39 pages, 6 figures

Published

2020

46. Beyond the Standard Model in Vector Boson Scattering Signatures

Author

Gallinaro, Michele, Long, Kenneth, Reuter, Jürgen, Ruiz, Richard, Bachas, Dinos, Barak, Liron, Bishara, Fady, Brivio, Ilaria, Franzosi, Diogo Buarque, Cacciapaglia, Giacomo, Fassi, Farida, Kasimi, Eirini, Kirschenmann, Henning, Petridou, Chara, Prosper, Harrison, Romão, Jorge, Rosell, Ignasi, Salvioni, Ennio, Santos, Rui, Slawinska, Magdalena, Strong, Giles Chatham, and Szleper, Michał

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

The high-energy scattering of massive electroweak bosons, known as vector boson scattering (VBS), is a sensitive probe of new physics. VBS signatures will be thoroughly and systematically investigated at the LHC with the large data samples available and those that will be collected in the near future. Searches for deviations from Standard Model (SM) expectations in VBS facilitate tests of the Electroweak Symmetry Breaking (EWSB) mechanism. Current state-of-the-art tools and theory developments, together with the latest experimental results, and the studies foreseen for the near future are summarized. A review of the existing Beyond the SM (BSM) models that could be tested with such studies as well as data analysis strategies to understand the interplay between models and the effective field theory paradigm for interpreting experimental results are discussed. This document is a summary of the EU COST network "VBScan" workshop on the sensitivity of VBS processes for BSM frameworks that took place December 4-5, 2019 at the LIP facilities in Lisbon, Portugal. In this manuscript we outline the scope of the workshop, summarize the different contributions from theory and experiment, and discuss the relevant findings., Comment: Proceedings Summary Document of the EU COST Action CA16108 "VBScan" Workshop, Dec 4-5, 2019, LIP Lisbon, Portugal

Published

2020

47. Large $N_f$ for multiple representations

Author

Cacciapaglia, Giacomo and Vatani, Shahram

Subjects

High Energy Physics - Phenomenology

Abstract

We present an extension of the large $N_f$ formalism that allows to study cases with multiple fermion representations. The pole structure in the beta function is traced back to the intrinsic non-abelian nature of the gauge group, independently on the fermion representation. This result validates the conjectured existence of an interactive UV fixed point for non-abelian gauge theories with large fermion multiplicity. Finally, we apply our results to chiral gauge theories and to extended Grand Unified Theories., Comment: 14 pages, no figures

Published

2020

48. Interplay of social distancing and border restrictions for pandemics (COVID-19) via the epidemic Renormalisation Group framework

Author

Cacciapaglia, Giacomo and Sannino, Francesco

Subjects

Physics - Physics and Society, Quantitative Biology - Populations and Evolution

Abstract

We demonstrate that the epidemic renormalisation group approach to pandemics provides an effective and simple way to investigate the dynamics of disease transmission and spreading across different regions of the world. The framework also allows for reliable projections on the impact of travel limitations and social distancing measures on global epidemic spread. We test and calibrate it on reported cases while unveiling the mechanism that governs the delay in the relative peaks of newly infected cases among different regions of the globe. We discover that social distancing measures are more effective than travel limitations across borders in delaying the epidemic peak. We further provide the link to compartmental models such as the simplistic and time-honoured SIR-like models. We also show how to generalise the framework to account for the interactions across several regions of the world, replacing or complementing large scale simulations., Comment: 9 pages, 8 figures

Published

2020

49. Fundamental Composite Dynamics: A Review

Author

Cacciapaglia, Giacomo, Pica, Claudio, and Sannino, Francesco

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice, High Energy Physics - Theory

Abstract

We introduce fundamental gauge theories that can be employed to construct informed composite bright and dark extensions of the Standard Model, within and beyond the standard paradigms. The gap between theory and experiments is bridged by providing predictions and ways to test them, for example, at the Fermi scale and via precision flavor experiments. We will review time-honoured paradigms from (walking) technicolor to composite Goldstone Higgs and discuss their features and differences. Standard model fermion mass generation in composite models will also be discussed along with the challenges and opportunities that it offers. To be concrete and pedagogical we will concentrate on minimal constructions featuring strongly coupled gauge theories supporting the global symmetry breaking pattern SU(4)/Sp(4). The most minimal underlying fundamental description consists of an SU(2) gauge theory with two Dirac fermions transforming according to the fundamental representation of the gauge group. This minimal choice enables us to use first principle lattice results to predict the massive spectrum for models of composite (Goldstone) Higgs dynamics and strongly interacting dark matter, of immediate impact for current and future experimental searches. Because composite dynamics embraces a rich spectrum of theories with dynamics ranging from QCD-like behaviour to (near) conformal one, we also report here the state-of-the-art of numerical and analytic properties of several strongly coupled theories including their spectrum, phase diagrams and, when applicable, their (near) conformal data., Comment: 140 pages

Published

2020

50. Higgs boson emerging from the dark

Author

Cai, Chengfeng, Zhang, Hong-Hao, Cacciapaglia, Giacomo, Frandsen, Mads T., and Rosenlyst, Martin

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Experiment

Abstract

We propose a new non-thermal mechanism of dark matter production based on vacuum misalignment. A global $X$-charge asymmetry is generated at high temperatures, under which both the will-be Higgs and the dark matter are charged. At lower energies, the vacuum changes alignment and breaks the $U(1)_X$, leading to the emergence of the Higgs and of a fraction of charge asymmetry stored in the stable dark matter relic. This mechanism can be present in a wide variety of models based on vacuum misalignment, and we demonstrate it in a composite Higgs template model, where all the necessary ingredients are naturally present. A light pseudo-scalar $\eta$ is always predicted, with interesting implications for cosmology, future supernova observations and exotic $Z \to \gamma \eta$ decays., Comment: 6 pages, 1 figure, 1 table; accepted for publication in Physical Review Letters

Published

2019