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1. Searches for Heavy Resonances with Substructure

   https://doi.org/10.1146/annurev-nucl-102419-055402  

   Maksimović, Petar (September 2022, Annual Review of Nuclear and Particle Science)

   In the past decade, the Large Hadron Collider (LHC) has probed a higher energy scale than ever before. Most models of physics beyond the standard model (BSM) predict the production of new heavy particles; the LHC results have excluded lower masses of such particles. This makes the high-mass regions especially interesting for current and future searches. In most BSM scenarios of interest, the new heavy resonances decay to standard model particles. In a subset of these models, the new particles have large couplings to the top quark, the W and Z bosons, or the Higgs boson. The top quark and W, Z, and Higgs bosons often decay to quarks, giving rise to jets of particles with substructure; event selection based on substructure is used to suppress standard model backgrounds. This review covers the key concepts in experimental searches based on the jet substructure and discusses recent results from the ATLAS and CMS experiments. 

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2. “Unification” of BSM searches and SM measurements: the case of lepton+ and mW

   https://doi.org/10.1007/JHEP02(2025)139  

   Agashe, Kaustubh; Airen, Sagar; Franceschini, Roberto; Kim, Doojin; Kotwal, Ashutosh V; Ricci, Lorenzo; Sathyan, Deepak (February 2025, Journal of High Energy Physics)

   A<sc>bstract</sc> We develop the idea that the unprecedented precision in Standard Model (SM) measurements, with further improvement at the HL-LHC, enables new searches for physics Beyond the Standard Model (BSM). As an illustration, we demonstrate that the measured kinematic distributions of theℓ+ Image missing<#comment/>final state not only determine the mass of theWboson, but are also sensitive to light new physics. Such a search for new physics thus requires asimultaneousfit to the BSM and SM parameters, “unifying” searches and measurements at the LHC and Tevatron. In this paper, we complete the program initiated in our earlier work [1]. In particular, we analyze (i) novel decay modes of theWboson with a neutrinophilic invisible scalar or with a heavy neutrino; (ii) modified production ofWbosons, namely, associated with a hadrophilic invisibleZ′ gauge boson; and (iii) scenarios without an on-shellWboson, such as slepton-sneutrino production in the Minimal Supersymmetric Standard Model (MSSM). Here, we complement our previous MSSM analysis in [1] by considering a different kinematic region. Our results highlight that new physics can still be directly discovered at the LHC, including light new physics, via SM precision measurements. Furthermore, we illustrate that such BSM signals are subtle, yet potentially large enough to affect the precision measurements of SM parameters themselves, such as theWboson mass. 

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3. The second Higgs at the lifetime frontier

   https://doi.org/10.1007/JHEP07(2020)029  

   Alipour-Fard, Samuel; Craig, Nathaniel; Gori, Stefania; Koren, Seth; Redigolo, Diego (July 2020, Journal of High Energy Physics)

   null (Ed.)

   A bstract We assess the current coverage and the future discovery potential of LHC searches for heavy Higgs bosons decaying into long-lived particles (LLPs), focusing primarily on the production of pairs of LLPs with hadronic final states. These signatures are generic in dark sectors where a heavy scalar decays into pairs of lighter states which subsequently mix with the Standard Model Higgs. We show that a handful of existing analyses provide broad coverage of LLP decay lengths ranging from millimeters to tens of meters, and explore the complementarity between searches for displaced and prompt final states in several simplified models. For both heavy singlet and heavy doublet scalars, LLP searches typically provide the leading sensitivity in current data and exhibit the strongest discovery potential in future LHC runs. We further translate the impact of these searches into the parameter space of various Twin Higgs models, demonstrating that LLP searches are a promising avenue for discovering a Twin Higgs with displaced decays. Finally, we propose a variety of additional search channels that would improve coverage of the second Higgs at the lifetime frontier. 

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4. Unveiling hidden physics at the LHC

   https://doi.org/10.1140/epjc/s10052-022-10541-4  

   Fischer, Oliver; Mellado, Bruce; Antusch, Stefan; Bagnaschi, Emanuele; Banerjee, Shankha; Beck, Geoff; Belfatto, Benedetta; Bellis, Matthew; Berezhiani, Zurab; Blanke, Monika; et al (August 2022, The European Physical Journal C)

   Abstract The field of particle physics is at the crossroads. The discovery of a Higgs-like boson completed the Standard Model (SM), but the lacking observation of convincing resonances Beyond the SM (BSM) offers no guidance for the future of particle physics. On the other hand, the motivation for New Physics has not diminished and is, in fact, reinforced by several striking anomalous results in many experiments. Here we summarise the status of the most significant anomalies, including the most recent results for the flavour anomalies, the multi-lepton anomalies at the LHC, the Higgs-like excess at around 96 GeV, and anomalies in neutrino physics, astrophysics, cosmology, and cosmic rays. While the LHC promises up to 4 $$\hbox {ab}^{-1}$$ ab - 1 of integrated luminosity and far-reaching physics programmes to unveil BSM physics, we consider the possibility that the latter could be tested with present data, but that systemic shortcomings of the experiments and their search strategies may preclude their discovery for several reasons, including: final states consisting in soft particles only, associated production processes, QCD-like final states, close-by SM resonances, and SUSY scenarios where no missing energy is produced. New search strategies could help to unveil the hidden BSM signatures, devised by making use of the CERN open data as a new testing ground. We discuss the CERN open data with its policies, challenges, and potential usefulness for the community. We showcase the example of the CMS collaboration, which is the only collaboration regularly releasing some of its data. We find it important to stress that individuals using public data for their own research does not imply competition with experimental efforts, but rather provides unique opportunities to give guidance for further BSM searches by the collaborations. Wide access to open data is paramount to fully exploit the LHCs potential. 

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5. Enhanced molecular yield from a cryogenic buffer gas beam source via excited state chemistry

   https://doi.org/10.1088/1367-2630/ab6eae  

   Jadbabaie, Arian; Pilgram, Nickolas H.; Kłos, Jacek; Kotochigova, Svetlana; Hutzler, Nicholas R. (February 2020, New Journal of Physics)

   Abstract We use narrow-band laser excitation of Yb atoms to substantially enhance the brightness of a cold beam of YbOH, a polyatomic molecule with high sensitivity to physics beyond the standard model (BSM). By exciting atomic Yb to the metastable³P₁state in a cryogenic environment, we significantly increase the chemical reaction cross-section for collisions of Yb with reactants. We characterize the dependence of the enhancement on the properties of the laser light, and study the final state distribution of the YbOH products. The resulting bright, cold YbOH beam can be used to increase the statistical sensitivity in searches for new physics utilizing YbOH, such as electron electric dipole moment and nuclear magnetic quadrupole moment experiments. We also perform new quantum chemical calculations that confirm the enhanced reactivity observed in our experiment and compare reaction pathways of Yb(³P) with the reactants H₂O and H₂O₂. More generally, our work presents a broad approach for improving experiments that use cryogenic molecular beams for laser cooling and precision measurement searches of BSM physics. 

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