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4. Testing Heavy Neutral Leptons in Cosmic Ray Beam Dump experiments

Author

Fischer, Oliver, Pattnaik, Baibhab, and Zurita, José

Subjects
High Energy Physics - Phenomenology
Abstract

In this work, we discuss the possibility to test Heavy Neutral Leptons (HNLs) using $``$Cosmic Ray Beam Dump$"$ experiments. In analogy with terrestrial beam dump experiments, where a beam first hits a target and is then absorbed by a shield, we consider high-energy incident cosmic rays impinging on the Earth's atmosphere and then the Earth's surface. We focus here on HNL production from atmospherically produced kaon, pion and $D$-meson decays, and discuss the possible explanation of the appearing Cherenkov showers observed by the SHALON Cherenkov telescope and the ultra-high energy events detected by the neutrino experiment ANITA. We show that these observations can not be explained with a long-lived HNL, as the relevant parameter space is excluded by existing constraints. Then we propose two new experimental setups that are inspired by these experiments, namely a Cherenkov telescope pointing at the horizon and shielded by the mountain cliff at Mount Thor, and a geostationary satellite that observes part of the Sahara desert. We show that the Cherenkov telescope at Mount Thor can probe currently untested HNL parameter space for masses below the kaon mass. We also show that the geostationary satellite experiment can significantly increase the HNL parameter space coverage in the whole mass range from 10 MeV up to 2 GeV and test neutrino mixing $|U_{\alpha4}|^2$ down to $10^{-11}$ for masses around 300 MeV., Comment: 23 pages, 7 figures

Published
2023
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6. The Development of Energy-Recovery Linacs

Author

Adolphsen, Chris, Andre, Kevin, Angal-Kalinin, Deepa, Arnold, Michaela, Aulenbacher, Kurt, Benson, Steve, Bernauer, Jan, Bogacz, Alex, Boonekamp, Maarten, Brinkmann, Reinhard, Bruker, Max, Brüning, Oliver, Curatolo, Camilla, Duthill, Patxi, Fischer, Oliver, Hoffstaetter, Georg, Holzer, Bernhard, Hounsell, Ben, Hutton, Andrew, Jensen, Erk, Kaabi, Walid, Kayran, Dmitry, Klein, Max, Knobloch, Jens, Krafft, Geoff, Kühn, Julius, Kuske, Bettina, Litvinenko, Vladimir, Marhauser, Frank, Militsyn, Boris, Nagaitsev, Sergei, Neil, George, Neumann, Axel, Pietralla, Norbert, Rimmer, Bob, Serafini, Luca, Shevchenko, Oleg A., Shipman, Nick, Spiesberger, Hubert, Tanaka, Olga, Telnov, Valery, Tennant, Chris, Vaccarezza, Cristina, Verney, David, Vinokurov, Nikolay, Williams, Peter, Yamamoto, Akira, Yokoya, Kaoru, and Zimmermann, Frank

Subjects
Physics - Accelerator Physics
Abstract

Energy-recovery linacs (ERLs) have been emphasised by the recent (2020) update of the European Strategy for Particle Physics as one of the most promising technologies for the accelerator base of future high-energy physics. The current paper has been written as a base document to support and specify details of the recently published European roadmap for the development of energy-recovery linacs. The paper summarises the previous achievements on ERLs and the status of the field and its basic technology items. The main possible future contributions and applications of ERLs to particle and nuclear physics as well as industrial developments are presented. The paper includes a vision for the further future, beyond 2030, as well as a comparative data base for the main existing and forthcoming ERL facilities. A series of continuous innovations, such as on intense electron sources or high-quality superconducting cavity technology, will massively contribute to the development of accelerator physics at large. Industrial applications are potentially revolutionary and may carry the development of ERLs much further, establishing another shining example of the impact of particle physics on society and its technical foundation with a special view on sustaining nature.

Published
2022

7. Prismatic Soft Actuator Augments the Workspace of Soft Continuum Robots

Author

Wand, Philipp, Fischer, Oliver, and Katzschmann, Robert K.

Subjects
Computer Science - Robotics
Abstract

Soft robots are promising for manipulation tasks thanks to their compliance, safety, and high degree of freedom. However, the commonly used bidirectional continuum segment design means soft robotic manipulators only function in a limited hemispherical workspace. This work increases a soft robotic arm's workspace by designing, fabricating, and controlling an additional soft prismatic actuator at the base of the soft arm. This actuator consists of pneumatic artificial muscles and a piston, making the actuator back-driveable. We increase the task space volume by 116\%, and we are now able to perform manipulation tasks that were previously impossible for soft robots, such as picking and placing objects at different positions on a surface and grabbing an object out of a container. By combining a soft robotic arm with a prismatic joint, we greatly increase the usability of soft robots for object manipulation. This work promotes the use of integrated and modular soft robotic systems for practical manipulation applications in human-centered environments.

Published
2022

10. Tailoring perovskite crystallization and interfacial passivation in efficient, fully textured perovskite silicon tandem solar cells

Author

Er-raji, Oussama, Mahmoud, Mohamed A.A., Fischer, Oliver, Ramadan, Alexandra J., Bogachuk, Dmitry, Reinholdt, Alexander, Schmitt, Angelika, Kore, Bhushan P., Gries, Thomas William, Musiienko, Artem, Schultz-Wittmann, Oliver, Bivour, Martin, Hermle, Martin, Schubert, Martin C., Borchert, Juliane, Glunz, Stefan W., and Schulze, Patricia S.C.

Published
2024
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11. Recent Progress and Next Steps for the MATHUSLA LLP Detector

Author

Alpigiani, Cristiano, Arteaga-Velázquez, Juan Carlos, Ball, Austin, Barak, Liron, Barron, Jared, Batell, Brian, Beacham, James, Benhammo, Yan, Brau, Benjamin, Caballero-Mora, Karen Salomé, Camarri, Paolo, Cardarelli, Roberto, Chou, John Paul, Cui, Wentao, Curtin, David, Diamond, Miriam, Dienes, Keith R., Dougherty, Liam Andrew, Dougherty, William, Drewes, Marco, Erramilli, Sameer, Essig, Rouven, Etzion, Erez, Evans, Jared, Téllez, Arturo Fernández, Finlayson, Grace, Fischer, Oliver, Freeman, Jim, Gall, Jonathan, Garabaglu, Ali, Garcia-Bellido, Aran, Giagu, Stefano, Gomber, Bhawna, Greenberg, Stephen Elliott, Guida, Roberto, Haas, Andy, Hassan, Bahgat, Heng, Yuekun, Hsu, Shih-Chieh, Humphrey, Keegan, Iaselli, Giuseppe, Johns, Ken, Kvam, Audrey, Lazic, Dragoslav, Li, Liang, Liao, Jiahao, Liberti, Barbara, Liu, Zhen, Lubatti, Henry, Luo, Lillian, Marsella, Giovanni, Hernández, Mario Iván Martínez, McCullough, Matthew, McKeen, David, Meade, Patrick, Mizrachi, Gilad, Morales-Olivares, O. G., Morrissey, David, Morvai, Ljiljana, Moshe, Meny Raviv, Panagiotou, Michalis, Proffitt, Mason, Ramirez, Dennis Cazar, Reece, Matthew, Robertson, Steven H., Rodríguez-Cahuantzi, Mario, de Roeck, Albert, Roepe, Amber, Ruckman, Larry, Russell, James John, Russell, Heather, Saka, Halil, Santonico, Rinaldo, Schioppa, Marco, Di Sciascio, Giuseppe, Shelton, Jessie, Shuve, Brian, Silver, Yiftah, Di Stante, Luigi, Stolarski, Daniel, Strauss, Mike, Strom, David, Stupak, John, Vasquez, Martin A. Subieta, Swain, Sanjay Kumar, Tan, Chin Lung, Muñoz, Guillermo Tejeda, Thayil, Steffie Ann, Thomas, Brooks, Torro, Emma, Tsai, Yuhsin, Watts, Gordon, Xu, Zijun, Young, Charles, Zolkin, Igor, and Zurita, Jose

Subjects
High Energy Physics - Experiment
Abstract

We report on recent progress and next steps in the design of the proposed MATHUSLA Long Lived Particle (LLP) detector for the HL-LHC as part of the Snowmass 2021 process. Our understanding of backgrounds has greatly improved, aided by detailed simulation studies, and significant R&D has been performed on designing the scintillator detectors and understanding their performance. The collaboration is on track to complete a Technical Design Report, and there are many opportunities for interested new members to contribute towards the goal of designing and constructing MATHUSLA in time for HL-LHC collisions, which would increase the sensitivity to a large variety of highly motivated LLP signals by orders of magnitude., Comment: Contribution to Snowmass 2021 (EF09, EF10, IF6, IF9), 18 pages, 12 figures. v2: included additional endorsers. v3: updated affiliations. v4: added missing contributors as authors

Published
2022

12. Dynamic Task Space Control Enables Soft Manipulators to Perform Real-World Tasks

Author

Fischer, Oliver, Toshimitsu, Yasunori, Kazemipour, Amirhossein, and Katzschmann, Robert K.

Subjects
Computer Science - Robotics
Abstract

Dynamic motions are a key feature of robotic arms, enabling them to perform tasks quickly and efficiently. Soft continuum manipulators do not currently consider dynamic parameters when operating in task space. This shortcoming makes existing soft robots slow and limits their ability to deal with external forces, especially during object manipulation. We address this issue by using dynamic operational space control. Our control approach takes into account the dynamic parameters of the 3D continuum arm and introduces new models that enable multi-segment soft manipulators to operate smoothly in task space. Advanced control methods, previously afforded only to rigid robots, are now adapted to soft robots; for example, potential field avoidance was previously only shown for rigid robots and is now extended to soft robots. Using our approach, a soft manipulator can now achieve a variety of tasks that were previously not possible: we evaluate the manipulator's performance in closed-loop controlled experiments such as pick-and-place, obstacle avoidance, throwing objects using an attached soft gripper, and deliberately applying forces to a surface by drawing with a grasped piece of chalk. Besides the newly enabled skills, our approach improves tracking accuracy by 59% and increases speed by a factor of 19.3 compared to state of the art for task space control. With these newfound abilities, soft robots can start to challenge rigid robots in the field of manipulation. Our inherently safe and compliant soft robot moves the future of robotic manipulation towards a cageless setup where humans and robots work in parallel.

Published
2022
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13. Explaining excesses in four-leptons at the LHC with a double peak from a CP violating Two Higgs Doublet Model

Author

Antusch, Stefan, Fischer, Oliver, Hammad, A., and Scherb, Christiane

Subjects
High Energy Physics - Phenomenology
Abstract

Extended scalar sectors with additional degrees of freedom appear in many scenarios beyond the Standard Model. Heavy scalar resonances that interact with the neutral current could be discovered via broad resonances in the tails of the four-lepton invariant mass spectrum, where the Standard Model background is small and well understood. In this article we consider a recent ATLAS measurement of four-lepton final states, where the data is in excess over the background for invariant masses above 500 GeV. We discuss the possibility that this excess could be interpreted as a "double peak" from the two extra heavy neutral scalars of a CP violating Two Higgs Doublet Model, both coupling to the $Z$ boson. We apply an iterative fitting procedure to find viable model parameters that can match the excess, resulting in a benchmark point where the observed four-lepton invariant mass spectrum can be explained by two scalar particles $H_2$ and $H_3$, with masses of 540 GeV and 631 GeV, respectively, being admixtures of the CP eigenstates. Our explanation predicts additional production processes for $t\bar t$, $W^+W^-$, $4b$ and $\gamma\gamma$, some of which have cross sections close to the current experimental limits. Our results further imply that the electric dipole moment of the electron should be close to the present bounds., Comment: 9 pages, 2 figures

Published
2021
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14. Robustness of ARS Leptogenesis in Scalar Extensions

Author

Fischer, Oliver, Lindner, Manfred, and van der Woude, Susan

Subjects
High Energy Physics - Phenomenology
Abstract

Extensions of the Standard Model (SM) with sterile neutrinos are well motivated from the observed oscillations of the light neutrinos and they have shown to successfully explain the Baryon Asymmetry of the Universe (BAU) through, for instance, the so-called ARS leptogenesis. Sterile neutrinos can be added in minimal ways to the SM, but many theories exist where sterile neutrinos are not the only new fields. Such theories often include scalar bosons, which brings about the possibility of further interactions between the sterile neutrinos and the SM. In this paper we consider an extension of the SM with two sterile neutrinos and one scalar singlet particle and investigate the effect that an additional, thermalised, scalar has on the ARS leptogenesis mechanism. We show that in general the created asymmetry is reduced due to additional sterile neutrino production from scalar decays. When sterile neutrinos and scalars are discovered in the laboratory, our results will provide information on the applicability of the ARS leptogenesis mechanism., Comment: 16 pages plus references, 6 figures, 2 tables

Published
2021
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15. Adaptive Dynamic Sliding Mode Control of Soft Continuum Manipulators

Author

Kazemipour, Amirhossein, Fischer, Oliver, Toshimitsu, Yasunori, Wong, Ki Wan, and Katzschmann, Robert K.

Subjects
Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

Soft robots are made of compliant materials and perform tasks that are challenging for rigid robots. However, their continuum nature makes it difficult to develop model-based control strategies. This work presents a robust model-based control scheme for soft continuum robots. Our dynamic model is based on the Euler-Lagrange approach, but it uses a more accurate description of the robot's inertia and does not include oversimplified assumptions. Based on this model, we introduce an adaptive sliding mode control scheme, which is robust against model parameter uncertainties and unknown input disturbances. We perform a series of experiments with a physical soft continuum arm to evaluate the effectiveness of our controller at tracking task-space trajectory under different payloads. The tracking performance of the controller is around 38\% more accurate than that of a state-of-the-art controller, i.e., the inverse dynamics method. Moreover, the proposed model-based control design is flexible and can be generalized to any continuum robotic arm with an arbitrary number of segments. With this control strategy, soft robotic object manipulation can become more accurate while remaining robust to disturbances., Comment: For associated video, see https://www.youtube.com/watch?v=os5SuStpqh8. This paper has been accepted for presentation at the 39th IEEE Conference on Robotics and Automation (ICRA 2022)

Published
2021
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16. Unveiling Hidden Physics at the LHC

Author

Fischer, Oliver, Mellado, Bruce, Antusch, Stefan, Bagnaschi, Emanuele, Banerjee, Shankha, Beck, Geoff, Belfatto, Benedetta, Bellis, Matthew, Berezhiani, Zurab, Blanke, Monika, Capdevila, Bernat, Cheung, Kingman, Crivellin, Andreas, Desai, Nishita, Dev, Bhupal, Godbole, Rohini, Han, Tao, Harris, Philip, Hoferichter, Martin, Kirk, Matthew, Kulkarni, Suchita, Lange, Clemens, Lassila-Perini, Kati, Liu, Zhen, Mahmoudi, Farvah, Manzari, Claudio Andrea, Marzocca, David, Mukhopadhyaya, Biswarup, Pich, Antonio, Ruan, Yifeng, Schnell, Luc, Thaler, Jesse, and Westhoff, Susanne

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
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/ab 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., Comment: Whitepaper including input from the workshop "Unveiling Hidden Physics Beyond the Standard Model at the LHC" (1-3 March 2021, online), 70 pages plus references, 17 figures, 7 tables

Published
2021
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17. Accumulating Evidence for the Associated Production of a New Higgs Boson at the Large Hadron Collider

Author

Crivellin, Andreas, Fang, Yaquan, Fischer, Oliver, Bhattacharya, Srimoy, Kumar, Mukesh, Malwa, Elias, Mellado, Bruce, Rapheeha, Ntsoko, Ruan, Xifeng, and Sha, Qiyu

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

In the last decades, the Standard Model (SM) of particle physics has been extensively tested and confirmed, with the announced discovery of the Higgs boson in 2012 being the last missing puzzle piece. Even though since then the search for new particles and interactions has been further intensified, the experiments ATLAS and CMS at the Large Hadron Collider (LHC) at CERN did not find evidence for the direct production of a new state. However, in recent years deviations between LHC data and SM predictions in multiple observables involving two or more leptons (electrons or muons) have emerged, the so-called ``multi-lepton anomalies'', pointing towards the existence of a beyond the SM Higgs boson $S$. While from these measurements its mass cannot be exactly determined, it is estimated to lay in the range between $130\,$GeV and $160\,$GeV. Motivated by this observation, we perform a search for signatures of $S$, by using existing CMS and ATLAS analyses. Combining channels involving the associate productions of SM gauge bosons ($\gamma\gamma$ and $Z\gamma$), we find that a simplified model with a new scalar with $m_S= 151.5\,$GeV is preferred over the SM hypothesis by 4.3$\sigma$ (3.9$\sigma$) locally (globally). On the face of it, this provides a good indication for the existence of a new scalar resonance $S$ decaying into photons, in association with missing energy and allows for a connection to the long-standing problem of Dark Matter. Furthermore, because $S$ is always produced together with other particles, we postulate the existence of a second new (heavier) Higgs boson $H$ that decays into $S$ and propose novel searches to discover this particle, which can be performed by ATLAS and CMS., Comment: 9 pages, 5 figures, 1 table, version accepted for publication in PRD

Published
2021

18. Displaced Neutrino Jets at the LHeC

Author

Cottin, Giovanna, Fischer, Oliver, Mandal, Sanjoy, Mitra, Manimala, and Padhan, Rojalin

Subjects
High Energy Physics - Phenomenology
Abstract

Extending the Standard Model with right-handed neutrinos (RHNs) is well motivated by the observation of neutrino oscillations. In the type-I seesaw model, the RHNs interact with the SM particles via tiny mixings with the active neutrinos, which makes their discovery in the laboratory, and in particular at collider experiments in general challenging. In this work we instead consider an extension of the type-I seesaw model with the addition of a leptoquark (LQ), and employ a non-minimal production mechanism of the RHN via LQ decay, which is unsuppressed by neutrino mixing. We focus on relatively light RHN with mass $\mathcal{O}(10)$ GeV and LQ with mass 1.0 TeV, and explore the discovery prospect of the RHN at the proposed Large Hadron electron Collider. In the considered mass range and with the given interaction strength, the RHN is long lived and, due to it stemming from the LQ decay, it is also heavily boosted, resulting in collimated decay products. The unique signature under investigation is thus a displaced fat jet. We use kinematic variables to separate signal from background, and demonstrate that the ratio variables with respect to energy/number of displaced and prompt tracks are useful handles in the identification of displaced decays of the RHN. We also show that employing a positron beam provides order of magnitude enhancement in the detection prospect of this signature., Comment: 6 pages, 6 figures, 2 tables

Published
2021
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19. Influence of Rib Geometry on the Bond Strength of Reinforcing Steel in Coils

Author

Fröse, Johannes, Fischer, Oliver, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Ilki, Alper, editor, Çavunt, Derya, editor, and Çavunt, Yavuz Selim, editor

Published
2023
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20. Avenues to new-physics searches in cosmic ray air showers

Author

Fischer, Oliver, Reininghaus, Maximilian, and Ulrich, Ralf

Subjects
High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Cosmic Rays (CR) impinging on the terrestrial atmosphere provide a viable opportunity to study new physics in hadron-nucleus collisions at energies covering many orders of magnitude, including a regime well beyond LHC energies. The permanent flux of primary CR can be used to estimate event rates for a given type of new physics scenario. As a step to estimate the potential for new-physics searches in CR-induced Extensive Air Showers (EAS), we here determine the total luminosity, including the contribution stemming from the cascade of secondaries in hadron-air interactions using Monte Carlo simulations of the hadronic shower component with CORSIKA~8. We show results obtained for single showers and discuss the interplay with the CR spectrum. Furthermore, we discuss the possibility to study BSM phenomenology in EAS, focusing on so-called large-multiplicity Higgs production as an explicit example and its impact on EAS observables., Comment: 6 pages, 4 figures; submitted to PoS(ICHEP2020)

Published
2020
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21. Testing the $R_{D^{(*)}}$ Anomaly at the LHeC

Author

Azuelos, Georges, Fischer, Oliver, and Jana, Sudip

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

B-Physics anomalies have recently raised renewed interest in leptoquarks (LQ), predicted in several theoretical frameworks. Under simplifying but conservative assumptions, we show that the current limits from LHC searches together with the requirement to explain the observed value for $R_{D^{(*)}}$ constrain the $R_2$ leptoquark mass to be in the range of $800 \leq m_{R_2} \leq 1000$ GeV. We study the search for $R_2$ at the LHeC via its resonance in the $b\tau$ final state by performing a cut-and-count analysis of the signal and the dominant Standard Model backgrounds. We find that the LHeC has an excellent discovery potential for $R_2$ even for couplings to the first generation as small as ${\cal O}(10^{-2})$., Comment: 12 pages, 6 figures

Published
2020
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22. Testing CP Properties of Extra Higgs States at the HL-LHC

Author

Antusch, Stefan, Fischer, Oliver, Hammad, A., and Scherb, Christiane

Subjects
High Energy Physics - Phenomenology
Abstract

Extra Higgs states appear in various scenarios beyond the current Standard Model of elementary particles. If discovered at the LHC or future colliders, the question will arise whether CP is violated or conserved in the extended scalar sector. An unambiguous probe of (indirect) CP violation would be the observation that one of the extra Higgs particles is an admixture of a CP-even and a CP-odd state. We discuss the possibility to discover scalar CP violation in this way at the high-luminosity (HL) phase of the LHC. We focus on the Two-Higgs Doublet Model of type I, where we investigate its currently allowed parameter region. Considering a benchmark point that is compatible with the current constraints but within reach of the HL-LHC, we study the prospects of determining the CP property of an extra neutral Higgs state $H$ via the angular distribution of final states in the decay $H \to \tau\bar\tau$. The analysis is performed at the reconstructed level, making use of a Boosted Decision Tree for efficient signal-background separation and a shape analysis for rejecting a purely CP-even or odd nature of $H$., Comment: Version to appear in JHEP

Published
2020
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23. An Update to the Letter of Intent for MATHUSLA: Search for Long-Lived Particles at the HL-LHC

Author

Alpigiani, Cristiano, Arteaga-Velázquez, Juan Carlos, Ball, Austin, Barak, Liron, Barron, Jared, Batell, Brian, Beacham, James, Benhammo, Yan, Caballero-Mora, Karen Salomé, Camarri, Paolo, Cardarelli, Roberto, Chou, John Paul, Cui, Wentao, Curtin, David, Diamond, Miriam, Dienes, Keith R., Dougherty, Liam Andrew, Di Sciascio, Giuseppe, Drewes, Marco, Etzion, Erez, Essig, Rouven, Evans, Jared, Téllez, Arturo Fernández, Fischer, Oliver, Freeman, Jim, Gall, Jonathan, Garabaglu, Ali, Giagu, Stefano, Greenberg, Stephen Elliott, Gomber, Bhawna, Guida, Roberto, Haas, Andy, Heng, Yuekun, Hsu, Shih-Chieh, Iaselli, Giuseppe, Johns, Ken, Kvam, Audrey, Lazic, Dragoslav, Li, Liang, Liberti, Barbara, Liu, Zhen, Lubatti, Henry, Luo, Lillian, Marsella, Giovanni, Hernández, Mario Iván Martínez, McCullough, Matthew, McKeen, David, Meade, Patrick, Mizrachi, Gilad, Morales-Olivares, O. G., Morrissey, David, Moshe, Meny Raviv, Policicchio, Antonio, Proffitt, Mason, Ramirez, Dennis Cazar, Reece, Matthew, Robertson, Steven H., Rodríguez-Cahuantzi, Mario, de Roeck, Albert, Roepe, Amber, Rothberg, Joe, Russell, James John, Russell, Heather, Santonico, Rinaldo, Schioppa, Marco, Shelton, Jessie, Shuve, Brian, Silver, Yiftah, Di Stante, Luigi, Stolarski, Daniel, Strauss, Mike, Strom, David, Stupak, John, Vasquez, Martin A. Subieta, Swain, Sanjay Kumar, Muñoz, Guillermo Tejeda, Thayil, Steffie Ann, Thomas, Brooks, Tsai, Yuhsin, Torro, Emma, Watts, Gordon, Young, Charles, and Zurita, Jose

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

We report on recent progress in the design of the proposed MATHUSLA Long Lived Particle (LLP) detector for the HL-LHC, updating the information in the original Letter of Intent (LoI), see CDS:LHCC-I-031, arXiv:1811.00927. A suitable site has been identified at LHC Point 5 that is closer to the CMS Interaction Point (IP) than assumed in the LoI. The decay volume has been increased from 20 m to 25 m in height. Engineering studies have been made in order to locate much of the decay volume below ground, bringing the detector even closer to the IP. With these changes, a 100 m x 100 m detector has the same physics reach for large c$\tau$ as the 200 m x 200 m detector described in the LoI and other studies. The performance for small c$\tau$ is improved because of the proximity to the IP. Detector technology has also evolved while retaining the strip-like sensor geometry in Resistive Plate Chambers (RPC) described in the LoI. The present design uses extruded scintillator bars read out using wavelength shifting fibers and silicon photomultipliers (SiPM). Operations will be simpler and more robust with much lower operating voltages and without the use of greenhouse gases. Manufacturing is straightforward and should result in cost savings. Understanding of backgrounds has also significantly advanced, thanks to new simulation studies and measurements taken at the MATHUSLA test stand operating above ATLAS in 2018. We discuss next steps for the MATHUSLA collaboration, and identify areas where new members can make particularly important contributions., Comment: 22 pages + references, 12 Figures

Published
2020

24. Exotic Higgs decays into displaced jets at the LHeC

Author

Cheung, Kingman, Fischer, Oliver, Wang, Zeren Simon, and Zurita, Jose

Subjects
High Energy Physics - Phenomenology
Abstract

Profiling the Higgs boson requires the study of its non-standard decay modes. In this work we discuss the prospects of the Large Hadron electron Collider (LHeC) to detect scalar particles with masses $\gtrsim$ 10 GeV produced from decays of the Standard Model (SM) Higgs boson. These scalar particles decay mainly to bottom pairs, and in a vast portion of the allowed parameter space they acquire a macroscopic lifetime, hence giving rise to displaced hadronic vertices. The LHeC provides a very clean environment that allows for easy identification of these final states, in contrast to hadronic colliders where the overwhelming backgrounds and high pile-up render such searches incredibly challenging. We find that the LHeC provides a unique window of opportunity to detect scalar particles with masses between 10 GeV and half the SM Higgs mass. In the Higgs Portal scenarios we can test the mixing angle squared, $\sin^2 \alpha$, as low as $10^{-5} - 10^{-7}$, with the exact value depending on the vacuum expectation value of the new scalar. Our results are also presented in a model-independent fashion in the lifetime-branching ratio and mass-branching ratio planes. We have found that exotic branching ratios of the Higgs boson at the sub-percent level can be probed, for the scalar decay length in the range $10^{-4}$ m $\lesssim c \tau \lesssim 10^{-1}$ m. The expected coverage of the parameter space largely exceeds the published sensitivity of the indirect reach at the high-luminosity Large Hadron Collider via the invisible Higgs branching ratio., Comment: 18 pages plus references, 5 figures, 2 tables. Added references, constraints from CMS and perturbativity. Results and conclusions unchanged

Published
2020
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25. Model Independent Bounds on the Non-Oscillatory Explanations of the MiniBooNE Excess

Author

Brdar, Vedran, Fischer, Oliver, and Smirnov, Alexei Yu.

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

We consider the non-oscillatory explanations of the low energy excess of events detected by MiniBooNE. We present a systematic search for phenomenological scenarios based on new physics which can produce the excess. We define scenarios as series of transitions and processes which connect interactions of accelerated protons in target with single shower events in the MiniBooNE detector. The key elements of the scenarios are production and decay of new light $\mathcal{O}(\text{keV}-100\,\text{MeV})$ particles (fermions or/and bosons). We find about $20$ scenarios with minimal possible number of new particles and interaction points. In practice, they are all reduced to few generic scenarios and in this way we develop the effective theory of the MiniBooNE excess. We consider tests of the scenarios with near or close detectors in neutrino experiments T2K ND280, NO$\nu$A, MINER$\nu$A as well as in NOMAD and PS191. The scenarios immediately connect the MiniBooNE excess and expected numbers of new physics events in these detectors. We compute the expected numbers of events as functions of lifetimes and masses of new particles and confront them with the corresponding experimental bounds. We indicate scenarios that are excluded or strongly disfavored by one or several experiments. Given our general approach, this work can also be regarded as the effective theory of new physics at accelerator based neutrino experiments, being relevant for future projects such as DUNE., Comment: 44 pages, 13 figures; PRD version

Published
2020
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27. Explaining the MiniBooNE excess by a decaying sterile neutrino with mass in the 250 MeV range

Author

Fischer, Oliver, Hernandez-Cabezudo, Alvaro, and Schwetz, Thomas

Subjects
High Energy Physics - Phenomenology
Abstract

The MiniBooNE collaboration has reported an excess of $460.5\pm 95.8$ electron-like events ($4.8\sigma$). We propose an explanation of these events in terms of a sterile neutrino decaying into a photon and a light neutrino. The sterile neutrino has a mass around 250 MeV and it is produced from kaon decays in the proton beam target via mixing with the muon or the electron in the range $10^{-11} \lesssim |U_{\ell 4}|^2 \lesssim 10^{-7}$ ($\ell = e,\mu$). The model can be tested by considering the time distribution of the events in MiniBooNE and by looking for single-photon events in running or upcoming neutrino experiments, in particular by the suite of liquid argon detectors in the short-baseline neutrino program at Fermilab., Comment: 26 pages, 9 figures. New references, supernova bound and an appendix about the impact of the timing cut are added

Published
2019
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28. Searching for Dark Photons at the LHeC and FCC-he

Author

D'Onofrio, Monica, Fischer, Oliver, and Wang, Zeren Simon

Subjects
High Energy Physics - Phenomenology
Abstract

Extensions of the Standard Model (SM) gauge group with a new $U(1)_X$ predict an additional gauge boson. Through kinetic mixing with the SM photons featured by a coupling $\epsilon$, the ensuing so-called dark photons $\gamma'$, which acquire mass as a result of the breaking of the gauge group $U(1)_X$, can interact with the SM field content. These massive dark photons can therefore decay to pairs of leptons, hadrons, or quarks, depending on their mass $m_{\gamma'}$. In this work, we discuss searches for dark photons in the mass range around and below one GeV at the LHeC and FCC-he colliders. The signal is given by the displaced decays of the long-lived dark photon into two charged fermions. We discuss the impact of conceivable irreducible (SM and machine-related) backgrounds and different signal efficiencies. Our estimates show that the LHeC and FCC-he can test a domain that is complementary to other present and planned experiments., Comment: 9 pages, 5 figures; v2: 10 pages, 6 figures, accepted for publication in Physical Review D

Published
2019
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29. Lepton-Trijet and Displaced Vertex Searches for Heavy Neutrinos at Future Electron-Proton Colliders

Author

Antusch, Stefan, Fischer, Oliver, and Hammad, A.

Subjects
High Energy Physics - Phenomenology
Abstract

Electron proton (ep) colliders could provide particle collisions at TeV energies with large data rates while maintaining the clean and pile~up-free environment of lepton colliders, which makes them very attractive for heavy neutrino searches. Heavy (mainly sterile) neutrinos with masses around the electroweak scale are proposed in low scale seesaw models for neutrino mass generation. In this paper, we analyse two of the most promising signatures of heavy neutrinos at ep colliders, the lepton-flavour violating (LFV) lepton-trijet signature and the displaced vertex signature. In the considered benchmark model, we find that for heavy neutrino masses around a few hundred GeV, the LFV lepton-trijet signature at ep colliders yields the best sensitivity of all currently discussed heavy neutrino signatures (analysed at the reconstructed level) up to now., Comment: 16 pages, 7 figures, 1 table

Published
2019
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30. Searching for long-lived particles beyond the Standard Model at the Large Hadron Collider

Author

Alimena, Juliette, Beacham, James, Borsato, Martino, Cheng, Yangyang, Vidal, Xabier Cid, Cottin, Giovanna, De Roeck, Albert, Desai, Nishita, Curtin, David, Evans, Jared A., Knapen, Simon, Kraml, Sabine, Lessa, Andre, Liu, Zhen, Mehlhase, Sascha, Ramsey-Musolf, Michael J., Russell, Heather, Shelton, Jessie, Shuve, Brian, Verducci, Monica, Zurita, Jose, Adams, Todd, Adersberger, Michael, Alpigiani, Cristiano, Apresyan, Artur, Bainbridge, Robert John, Batozskaya, Varvara, Beauchesne, Hugues, Benato, Lisa, Berlendis, S., Bhal, Eshwen, Blekman, Freya, Borovilou, Christina, Boyd, Jamie, Brau, Benjamin P., Bryngemark, Lene, Buchmueller, Oliver, Buschmann, Malte, Buttinger, William, Campanelli, Mario, Cesarotti, Cari, Chen, Chunhui, Cheng, Hsin-Chia, Cheong, Sanha, Citron, Matthew, Coccaro, Andrea, Coco, V., Conte, Eric, Cormier, Félix, Corpe, Louie D., Craig, Nathaniel, Cui, Yanou, Dall'Occo, Elena, Dallapiccola, C., Darwish, M. R., Davoli, Alessandro, de Cosa, Annapaola, De Simone, Andrea, Rose, Luigi Delle, Deppisch, Frank F., Dey, Biplab, Diamond, Miriam D., Dienes, Keith R., Dildick, Sven, Döbrich, Babette, Drewes, Marco, Eich, Melanie, ElSawy, M., del Valle, Alberto Escalante, Facini, Gabriel, Farina, Marco, Feng, Jonathan L., Fischer, Oliver, Flaecher, H. U., Foldenauer, Patrick, Freytsis, Marat, Fuks, Benjamin, Galon, Iftah, Gershtein, Yuri, Giagu, Stefano, Giammanco, Andrea, Gligorov, Vladimir V., Golling, Tobias, Grancagnolo, Sergio, Gustavino, Giuliano, Haas, Andrew, Hahn, Kristian, Hajer, Jan, Hammad, Ahmed, Heinrich, Lukas, Heisig, Jan, Helo, J. C., Hesketh, Gavin, Hill, Christopher S., Hirsch, Martin, Hohlmann, M., Hulsbergen, W., Huth, John, Ilten, Philip, Jacques, Thomas, Jayatilaka, Bodhitha, Jeng, Geng-Yuan, Johns, K. A., Kaji, Toshiaki, Kasieczka, Gregor, Kats, Yevgeny, Kazana, Malgorzata, Keller, Henning, Khlopov, Maxim Yu., Kling, Felix, Kolberg, Ted R., Kostiuk, Igor, Kuwertz, Emma Sian, Kvam, Audrey, Landsberg, Greg, Lanfranchi, Gaia, Lara, Iñaki, Ledovskoy, Alexander, Linthorne, Dylan, Liu, Jia, Longarini, Iacopo, Lowette, Steven, Lubatti, Henry, Lutz, Margaret, Luo, Jingyu, Mamužić, Judita, Marinangeli, Matthieu, Mariotti, Alberto, Marlow, Daniel, McCullough, Matthew, McDermott, Kevin, Mermod, P., Milstead, David, Mitsou, Vasiliki A., Berlingen, Javier Montejo, Moortgat, Filip, Morandini, Alessandro, Morris, Alice Polyxeni, Morse, David Michael, Mrenna, Stephen, Nachman, Benjamin, Nemevšek, Miha, Nesti, Fabrizio, Ohm, Christian, Pascoli, Silvia, Pedro, Kevin, Peña, Cristián, Rodriguez, Karla Josefina Pena, Piedra, Jónatan, Pinfold, James L., Policicchio, Antonio, Popara, Goran, Prisciandaro, Jessica, Proffitt, Mason, Rauco, Giorgia, Redi, Federico, Reece, Matthew, Hall, Allison Reinsvold, Sfar, H. Rejeb, Renner, Sophie, Roepe, Amber, Ronzani, Manfredi, Salvioni, Ennio, Santra, Arka, Sawada, Ryu, Scholtz, Jakub, Schuster, Philip, Schwaller, Pedro, Sebastiani, Cristiano, Sekmen, Sezen, Selvaggi, Michele, Si, Weinan, Soffi, Livia, Stolarski, Daniel, Stuart, David, Stupak III, John, Sung, Kevin, Taylor, Wendy, Templ, Sebastian, Thomas, Brooks, Torró-Pastor, Emma, Trocino, Daniele, Trojanowski, Sebastian, Trovato, Marco, Tsai, Yuhsin, Tully, C. G., Vámi, Tamás Álmos, Vasquez, Juan Carlos, Sierra, Carlos Vázquez, Vellidis, K., Vermassen, Basile, Vit, Martina, Walker, Devin G. E., Wang, Xiao-Ping, Watts, Gordon, Xie, Si, Yexley, Melissa, Young, Charles, Yu, Jiang-Hao, Zalewski, Piotr, and Zhang, Yongchao

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

Particles beyond the Standard Model (SM) can generically have lifetimes that are long compared to SM particles at the weak scale. When produced at experiments such as the Large Hadron Collider (LHC) at CERN, these long-lived particles (LLPs) can decay far from the interaction vertex of the primary proton-proton collision. Such LLP signatures are distinct from those of promptly decaying particles that are targeted by the majority of searches for new physics at the LHC, often requiring customized techniques to identify, for example, significantly displaced decay vertices, tracks with atypical properties, and short track segments. Given their non-standard nature, a comprehensive overview of LLP signatures at the LHC is beneficial to ensure that possible avenues of the discovery of new physics are not overlooked. Here we report on the joint work of a community of theorists and experimentalists with the ATLAS, CMS, and LHCb experiments --- as well as those working on dedicated experiments such as MoEDAL, milliQan, MATHUSLA, CODEX-b, and FASER --- to survey the current state of LLP searches at the LHC, and to chart a path for the development of LLP searches into the future, both in the upcoming Run 3 and at the High-Luminosity LHC. The work is organized around the current and future potential capabilities of LHC experiments to generally discover new LLPs, and takes a signature-based approach to surveying classes of models that give rise to LLPs rather than emphasizing any particular theory motivation. We develop a set of simplified models; assess the coverage of current searches; document known, often unexpected backgrounds; explore the capabilities of proposed detector upgrades; provide recommendations for the presentation of search results; and look towards the newest frontiers, namely high-multiplicity "dark showers", highlighting opportunities for expanding the LHC reach for these signals.

Published
2019
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31. MATHUSLA: A Detector Proposal to Explore the Lifetime Frontier at the HL-LHC

Author

Lubatti, Henry, Alpigiani, Cristiano, Arteaga-Velázquez, Juan Carlos, Ball, Austin, Beacham, Liron Barak James, Benhammo, Yan, Caballero-Mora, Karen Salomé, Camarri, Paolo, Cao, Tingting, Cardarelli, Roberto, Chou, John Paul, Curtin, David, de Roeck, Albert, Di Sciascio, Giuseppe, Diamond, Miriam, Drewes, Marco, Eno, Sarah C., Essig, Rouven, Evans, Jared, Etzion, Erez, Téllez, Arturo Fernández, Fischer, Oliver, Freeman, Jim, Giagu, Stefano, Gomes, Brandon, Haas, Andy, Heng, Yuekun, Iaselli, Giuseppe, Johns, Ken, Karagoz, Muge, Kvam, Audrey, Lazic, Dragoslav, Li, Liang, Liberti, Barbara, Liu, Zhen, Marsella, Giovanni, Mamani, Piter A. Paye, Hernández, Mario Iván Martínez, McCullough, Matthew, McKeen, David, Meade, Patrick, Mizrachi, Gilad, Morrissey, David, Moshe, Meny Raviv, Policicchio, Antonio, Proffitt, Mason, Reggiani-Guzzo, Marina, Rodríguez-Cahuantzi, Mario, Rothberg, Joe, Santonico, Rinaldo, Schioppa, Marco, Shelton, Jessie, Shuve, Brian, Silver, Yiftah, Stolarski, Daniel, Vasquez, Martin A. Subieta, Muñoz, Guillermo Tejeda, Thayil, Steffie Ann, Tsai, Yuhsin, Torro, Emma, Watts, Gordon, Young, Charles, and Zurita, Jose

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

The observation of long-lived particles at the LHC would reveal physics beyond the Standard Model, could account for the many open issues in our understanding of our universe, and conceivably point to a more complete theory of the fundamental interactions. Such long-lived particle signatures are fundamentally motivated and can appear in virtually every theoretical construct that address the Hierarchy Problem, Dark Matter, Neutrino Masses and the Baryon Asymmetry of the Universe. We describe in this document a large detector, MATHUSLA, located on the surface above an HL-LHC $pp$ interaction point, that could observe long-lived particles with lifetimes up to the Big Bang Nucleosynthesis limit of 0.1 s. We also note that its large detector area allows MATHUSLA to make important contributions to cosmic ray physics. Because of the potential for making a major breakthrough in our conceptual understanding of the universe, long-lived particle searches should have the highest level of priority., Comment: 8 pages, 5 figures. Input to the update process of the European Strategy for Particle Physics by the MATHUSLA collaboration (http://mathusla.web.cern.ch). See also CERN-PBC-REPORT-2018-007 for the ESPP contribution of the Physics Beyond Colliders working group, which contains a discussion of low-energy simplified models as well as some comments on MATHUSLA's budget and timelines

Published
2019

32. Searching for long-lived particles beyond the Standard Model at the Large Hadron Collider

Author

Alimena, Juliette, Beacham, James, Borsato, Martino, Cheng, Yangyang, Vidal, Xabier Cid, Cottin, Giovanna, Curtin, David, De Roeck, Albert, Desai, Nishita, Evans, Jared A, Knapen, Simon, Kraml, Sabine, Lessa, Andre, Liu, Zhen, Mehlhase, Sascha, Ramsey-Musolf, Michael J, Russell, Heather, Shelton, Jessie, Shuve, Brian, Verducci, Monica, Zurita, Jose, Adams, Todd, Adersberger, Michael, Alpigiani, Cristiano, Apresyan, Artur, Bainbridge, Robert John, Batozskaya, Varvara, Beauchesne, Hugues, Benato, Lisa, Berlendis, S, Bhal, Eshwen, Blekman, Freya, Borovilou, Christina, Boyd, Jamie, Brau, Benjamin P, Bryngemark, Lene, Buchmueller, Oliver, Buschmann, Malte, Buttinger, William, Campanelli, Mario, Cesarotti, Cari, Chen, Chunhui, Cheng, Hsin-Chia, Cheong, Sanha, Citron, Matthew, Coccaro, Andrea, Coco, V, Conte, Eric, Cormier, Flix, Corpe, Louie D, Craig, Nathaniel, Cui, Yanou, DallOcco, Elena, Dallapiccola, C, Darwish, MR, Davoli, Alessandro, de Cosa, Annapaola, De Simone, Andrea, Delle Rose, Luigi, Deppisch, Frank F, Dey, Biplab, Diamond, Miriam D, Dienes, Keith R, Dildick, Sven, Dbrich, Babette, Drewes, Marco, Eich, Melanie, ElSawy, M, del Valle, Alberto Escalante, Facini, Gabriel, Farina, Marco, Feng, Jonathan L, Fischer, Oliver, Flaecher, HU, Foldenauer, Patrick, Freytsis, Marat, Fuks, Benjamin, Galon, Iftah, Gershtein, Yuri, Giagu, Stefano, Giammanco, Andrea, Gligorov, Vladimir V, Golling, Tobias, Grancagnolo, Sergio, Gustavino, Giuliano, Haas, Andrew, Hahn, Kristian, Hajer, Jan, Hammad, Ahmed, Heinrich, Lukas, Heisig, Jan, Helo, JC, Hesketh, Gavin, Hill, Christopher S, Hirsch, Martin, Hohlmann, M, Holmes, Tova, Hulsbergen, W, Huth, John, and Ilten, Philip

Subjects
Nuclear and Plasma Physics, Particle and High Energy Physics, Physical Sciences, beyond the Standard Model, long-lived particles, Large Hadron Collider, high-luminosity LHC, collider phenomenology, high-energy collider experiments, hep-ex, hep-ph, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Nuclear and plasma physics, Particle and high energy physics
Abstract

Particles beyond the Standard Model (SM) can generically have lifetimes that are long compared to SM particles at the weak scale. When produced at experiments such as the Large Hadron Collider (LHC) at CERN, these long-lived particles (LLPs) can decay far from the interaction vertex of the primary proton-proton collision. Such LLP signatures are distinct from those of promptly decaying particles that are targeted by the majority of searches for new physics at the LHC, often requiring customized techniques to identify, for example, significantly displaced decay vertices, tracks with atypical properties, and short track segments. Given their non-standard nature, a comprehensive overview of LLP signatures at the LHC is beneficial to ensure that possible avenues of the discovery of new physics are not overlooked. Here we report on the joint work of a community of theorists and experimentalists with the ATLAS, CMS, and LHCb experiments-as well as those working on dedicated experiments such as MoEDAL, milliQan, MATHUSLA, CODEX-b, and FASER-to survey the current state of LLP searches at the LHC, and to chart a path for the development of LLP searches into the future, both in the upcoming Run 3 and at the high-luminosity LHC. The work is organized around the current and future potential capabilities of LHC experiments to generally discover new LLPs, and takes a signature-based approach to surveying classes of models that give rise to LLPs rather than emphasizing any particular theory motivation. We develop a set of simplified models; assess the coverage of current searches; document known, often unexpected backgrounds; explore the capabilities of proposed detector upgrades; provide recommendations for the presentation of search results; and look towards the newest frontiers, namely high-multiplicity 'dark showers', highlighting opportunities for expanding the LHC reach for these signals.

Published
2020

36. Future Opportunities in Accelerator-based Neutrino Physics

Author

Dell'Acqua, Andrea, Aduszkiewicz, Antoni, Ahlers, Markus, Aihara, Hiroaki, Alion, Tyler, Monsalve, Saul Alonso, Ruso, Luis Alvarez, Antonelli, Vito, Babicz, Marta, Barbano, Anastasia Maria, di Bari, Pasquale, Baussan, Eric, Bellini, Vincenzo, Berardi, Vincenzo, Blondel, Alain, Bonesini, Maurizio, Booth, Alexander, Bordoni, Stefania, Boyarsky, Alexey, Boyd, Steven, Bross, Alan D., Brunner, Juergen, Carlile, Colin, Catanesi, Maria-Gabriella, Christodoulou, Georgios, Coan, Thomas, Cussans, David, Decowski, M. Patrick, De Roeck, Albert, Diwan, Milind, Dracos, Marcos, Drewes, Marco, Ekelof, Tord Johan Carl, Martinez, Enrique Fernandez, Menéndez, Pablo Fernández, Fiorillo, Giuliana, Fischer, Oliver, Galbiati, Cristiano, Gariazzo, Stefano, Gazdzicki, Marek, Moghaddam, Zahra Gh., Gibin, Daniele, Gil-Botella, Inés, Giudice, Gian F., Gonzalez-Garcia, Maria Concepcion, de Gouvea, André, Hannestad, Steen, Hartz, Mark, Hayato, Yoshinari, Huber, Patrick, Ianni, Aldo, Ioannisian, Ara, Itow, Yoshitaka, Jachowicz, Natalie, Jeong, Yu Seon, Jurčiukonis, Darius, Klaric, Juraj, Kliček, Budimir, Kobayashi, Takashi, Kopp, Joachim, Koppert, Magdalena, Kose, Umut, Kowalski, Marek, Kudenko, Yury, Labarga, Luis, Lagoda, Justyna, Lasserre, Thierry, Leitner, Rupert, di Lodovico, Francesca, Long, Kenneth, Longhin, Andrea, Lopez-Pavon, Jacobo, De Lorenzis, Annalisa, Ludovici, Lucio, Masina, Isabella, Menegolli, Alessandro, Menjo, Hiroaki, Mertens, Susanne, Messomo, Etam Noah, Nakahata, Masayuki, Nakaya, Tsuyoshi, Nessi, Marzio, Ohlsson, Tommy, Palestini, Sandro, Palladino, Vittorio, Pallavicini, Marco, Palomares, Carmen, Pandey, Vishvas, Pavan, Maura, Patterson, Ryan, Pec, Viktor, Petcov, Serguey, Petta, Catia, Petti, Roberto, Pietropaolo, Francesco, Popov, Boris, Raffelt, Georg, Ramson, Bryan, Resnati, Filippo, Rondio, Ewa, de Rosa, Gianfranca, Rose, Luigi delle, Ruiz, Richard, Saakyan, Ruben, Sala, Paola, Salvado, Jordi, Sanchez, Federico, Schönert, Stefan, Schwetz, Thomas, Scott, Mark, Sfar, Haifa Rejeb, Sgalaberna, Davide, Shanahan, Peter, Shaposhnikov, Mikhail, Shiozawa, Masato, Soldner-Rembold, Stefan, Soler, Paul, Soualah, Rachik, Stocker, Francesca, Surdo, Antonio, Sutera, Concetta, Terliuk, Andrii, Terranova, Francesco, Thompson, Joshua, Tortorici, Francesco, Tsenov, Roumen, Tufanli, Serhan, Vacheret, Antonin, Valle, José W. F., Verstraeten, Maja, Vorobel, Vit, Wachala, Tomasz, Wark, David, Wascko, Morgan, Weber, Alfons, Weinheimer, Christian, Whitehead, Leigh H., Wilson, Fergus, Yokoyama, Masashi, Zalesak, Jaroslav, Zani, Andrea, Zimmerman, Eric D., and Zito, Marco

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

This document summarizes the conclusions of the Neutrino Town Meeting held at CERN in October 2018 to review the neutrino field at large with the aim of defining a strategy for accelerator-based neutrino physics in Europe. The importance of the field across its many complementary components is stressed. Recommendations are presented regarding the accelerator based neutrino physics, pertinent to the European Strategy for Particle Physics. We address in particular i) the role of CERN and its neutrino platform, ii) the importance of ancillary neutrino cross-section experiments, and iii) the capability of fixed target experiments as well as present and future high energy colliders to search for the possible manifestations of neutrino mass generation mechanisms., Comment: 10+6 pages; Summary Document of the European Neutrino Town Meeting, Oct 22-24 at CERN; editors: Alain Blondel, Albert De Roeck, Joachim Kopp; v2: references added

Published
2018

37. Closing the light gluino gap with electron-proton colliders

Author

Curtin, David, Deshpande, Kaustubh, Fischer, Oliver, and Zurita, Jose

Subjects
High Energy Physics - Phenomenology
Abstract

The future electron-proton collider proposals, LHeC and FCC-he, can deliver $\mathcal{O}$(TeV) center-of-mass energy collisions, higher than most of the proposed lepton accelerators, with $\mathcal{O}$(ab$^{-1}$) luminosity, while maintaining a much cleaner experimental environment as compared to the hadron machines. This unique capability of $e^- p$ colliders can be harnessed in probing BSM scenarios giving final states that look like hadronic noise at $pp$ machines. In the present study, we explore the prospects of detecting such a prompt signal having multiple soft jets at the LHeC. Such a signal can come from the decay of gluino in RPV or Stealth SUSY, where there exists a gap in the current experimental search with $m_{\tilde{g}} \approx 50 - 70$ GeV. We perform a simple analysis to demonstrate that, with simple signal selection cuts, we can close this gap at the LHeC at 95 % confidence level, even in the presence of a reasonable systematic error. More sophisticated signal selection strategies and detailed knowledge of the detector can be used to improve the prospects of signal detection., Comment: 7 pages, 5 figures

Published
2018
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38. Low scale type II seesaw: Present constraints and prospects for displaced vertex searches

Author

Antusch, Stefan, Fischer, Oliver, Hammad, A., and Scherb, Christiane

Subjects
High Energy Physics - Phenomenology
Abstract

The type II seesaw mechanism is an attractive way to generate the observed light neutrino masses. It postulates a SU(2)$_\mathrm{L}$-triplet scalar field, which develops an induced vacuum expectation value after electroweak symmetry breaking, giving masses to the neutrinos via its couplings to the lepton SU(2)$_\mathrm{L}$-doublets. When the components of the triplet field have masses around the electroweak scale, the model features a rich phenomenology. We discuss the current allowed parameter space of the minimal low scale type II seesaw model, taking into account all relevant constraints, including charged lepton flavour violation as well as collider searches. We point out that the symmetry protected low scale type II seesaw scenario, where an approximate "lepton number"-like symmetry suppresses the Yukawa couplings of the triplet to the lepton doublets, is still largely untested by the current LHC results. In part of this parameter space the triplet components can be long-lived, potentially leading to a characteristic displaced vertex signature where the doubly-charged component decays into same-sign charged leptons. By performing a detailed analysis at the reconstructed level we find that already at the current run of the LHC a discovery would be possible for the considered parameter point, via dedicated searches for displaced vertex signatures. The discovery prospects are further improved at the HL-LHC and the FCC-hh/SppC., Comment: 21 pages, 10 figures, 1 table

Published
2018
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39. A Letter of Intent for MATHUSLA: a dedicated displaced vertex detector above ATLAS or CMS

Author

Alpigiani, Cristiano, Ball, Austin, Barak, Liron, Beacham, James, Benhammo, Yan, Cao, Tingting, Camarri, Paolo, Cardarelli, Roberto, Rodriguez-Cahuantzi, Mario, Chou, John Paul, Curtin, David, Diamond, Miriam, Di Sciascio, Giuseppe, Drewes, Marco, Eno, Sarah C., Etzion, Erez, Essig, Rouven, Evans, Jared, Fischer, Oliver, Giagu, Stefano, Gomes, Brandon, Haas, Andy, Heng, Yuekun, Iaselli, Giuseppe, Johns, Ken, Karagoz, Muge, Kasper, Luke, Kvam, Audrey, Lazic, Dragoslav, Li, Liang, Liberti, Barbara, Liu, Zhen, Lubatti, Henry, Marsella, Giovanni, McCullough, Matthew, McKeen, David, Meade, Patrick, Mizrachi, Gilad, Morrissey, David, Moshe, Meny Raviv, Caballero-Mora, Karen Salome, Mamani, Piter A. Paye, Policicchio, Antonio, Proffitt, Mason, Reggiani-Guzzo, Marina, Rothberg, Joe, Santonico, Rinaldo, Schioppa, Marco, Shelton, Jessie, Shuve, Brian, Vasquez, Martin A. Subieta, Stolarski, Daniel, de Roeck, Albert, Tellez, Arturo Fernandez, Munoz, Guillermo Tejeda, Hernandez, Mario Ivan Martinez, Silver, Yiftah, Thayil, Steffie Ann, Torro, Emma, Tsai, Yuhsin, Arteaga-Velazquez, Juan Carlos, Watts, Gordon, Young, Charles, and Zurita, Jose

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

In this Letter of Intent (LOI) we propose the construction of MATHUSLA (MAssive Timing Hodoscope for Ultra-Stable neutraL pArticles), a dedicated large-volume displaced vertex detector for the HL-LHC on the surface above ATLAS or CMS. Such a detector, which can be built using existing technologies with a reasonable budget in time for the HL-LHC upgrade, could search for neutral long-lived particles (LLPs) with up to several orders of magnitude better sensitivity than ATLAS or CMS, while also acting as a cutting-edge cosmic ray telescope at CERN to explore many open questions in cosmic ray and astro-particle physics. We review the physics motivations for MATHUSLA and summarize its LLP reach for several different possible detector geometries, as well as outline the cosmic ray physics program. We present several updated background studies for MATHUSLA, which help inform a first detector-design concept utilizing modular construction with Resistive Plate Chambers (RPCs) as the primary tracking technology. We present first efficiency and reconstruction studies to verify the viability of this design concept, and we explore some aspects of its total cost. We end with a summary of recent progress made on the MATHUSLA test stand, a small-scale demonstrator experiment currently taking data at CERN Point 1, and finish with a short comment on future work.

Published
2018

40. Prospects for Heavy Scalar Searches at the LHeC

Author

Rose, Luigi Delle, Fischer, Oliver, and Hammad, A.

Subjects
High Energy Physics - Phenomenology
Abstract

In this article we study the prospects of the proposed Large Hadron electron Collider (LHeC) in the search for heavy neutral scalar particles. We consider a minimal model with one additional complex scalar singlet that interacts with the Standard Model (SM) via mixing with the Higgs doublet, giving rise to a SM-like Higgs boson $h_1$ and a heavy scalar particle $h_2$. Both scalar particles are produced via vector boson fusion and can be tested via their decays into pairs of SM particles, analogously to the SM Higgs boson. Using multivariate techniques we show that the LHeC is sensitive to $h_2$ with masses between 200 and 800 GeV down to scalar mixing of $\sin^2 \alpha \sim 10^{-3}$.

Published
2018
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41. BSM physics at the LHeC and the FCC-he

Author

Azuelos, Georges, D'Onofrio, Monica, Fischer, Oliver, and Zurita, Jose

Subjects
High Energy Physics - Phenomenology
Abstract

Electron-proton ($e^-p$) colliders are an ideal laboratory to study common features of electron and quarks with production via electroweak bosons, leptoquarks, multi-jet final states and very forward physics, due to their impressive pseudorapidity coverage. In addition to these physics cases, there exist a broad Beyond the Standard Model (BSM) program aimed at exploring the capabilities of the LHeC [1] and FCC-he [2] for several New Physics scenarios. Although their centre-of-mass energy is down with respect to a $pp$ collider by a factor of $\sqrt{E_p/E_e} \sim 10~(30)$ for the LHeC (FCC-he), they can be an invaluable tool to characterize BSM physics hints at $ee$ and $pp$ machines. The aim of this talk is to provide, on behalf of the BSM $e^-p$ Working Group, an overview of the aforementioned BSM program, by briefly summarizing the existing studies and reporting on the most recent progress. We expect that the ample scope in terms of NP models to be tested would enhance the synergies between the BSM and $e^-p$ communities, Comment: 5 pages, 4 figures, talk at the 26th International Workshop on Deep-Inelastic Scattering and Related Topics (DIS 2018)

Published
2018

42. Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case

Author

Curtin, David, Drewes, Marco, McCullough, Matthew, Meade, Patrick, Mohapatra, Rabindra N., Shelton, Jessie, Shuve, Brian, Accomando, Elena, Alpigiani, Cristiano, Antusch, Stefan, Arteaga-Velázquez, Juan Carlos, Batell, Brian, Bauer, Martin, Blinov, Nikita, Caballero-Mora, Karen Salomé, Chang, Jae Hyeok, Chun, Eung Jin, Co, Raymond T., Cohen, Timothy, Cox, Peter, Craig, Nathaniel, Csáki, Csaba, Cui, Yanou, D'Eramo, Francesco, Rose, Luigi Delle, Dev, P. S. Bhupal, Dienes, Keith R., Dror, Jeff A., Essig, Rouven, Evans, Jared A., Evans, Jason L., Tellez, Arturo Fernández, Fischer, Oliver, Flacke, Thomas, Fradette, Anthony, Frugiuele, Claudia, Fuchs, Elina, Gherghetta, Tony, Giudice, Gian F., Gorbunov, Dmitry, Gupta, Rick S., Hagedorn, Claudia, Hall, Lawrence J., Harris, Philip, Helo, Juan Carlos, Hirsch, Martin, Hochberg, Yonit, Hook, Anson, Ibarra, Alejandro, Ipek, Seyda, Jung, Sunghoon, Knapen, Simon, Kuflik, Eric, Liu, Zhen, Lombardo, Salvator, Lubatti, H. J., McKeen, David, Molinaro, Emiliano, Moretti, Stefano, Nagata, Natsumi, Neubert, Matthias, No, Jose Miguel, Olaiya, Emmanuel, Perez, Gilad, Peskin, Michael E., Pinner, David, Pospelov, Maxim, Reece, Matthew, Robinson, Dean J., Cahuantzi, Mario Rodríguez, Santonico, Rinaldo, Schlaffer, Matthias, Shepherd-Themistocleous, Claire H., Spray, Andrew, Stolarski, Daniel, Vasquez, Martin A. Subieta, Sundrum, Raman, Thamm, Andrea, Thomas, Brooks, Tsai, Yuhsin, Tweedie, Brock, West, Stephen M., Young, Charles, Yu, Felix, Zaldivar, Bryan, Zhang, Yongchao, Zurek, Kathryn, and Zurita, José

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
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 $\mu$m scale up to the Big Bang Nucleosynthesis limit of $\sim 10^7$m. Neutral LLPs with lifetimes above $\sim$ 100m 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. In this white paper we study the LLP physics opportunities afforded by a MATHUSLA-like detector at the HL-LHC. 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., Comment: 213 pages, 73 figures. Extended Section 2 to add more detailed discussion of LLP reconstruction and analysis, and background rejection. Updated comparison of MATHUSLA RH neutrino sensitivity to other experiments. Updated analysis of long-lived ALPs produced in weak-scale processes and decaying to jets. Various clarifications, fixed typos, and added references. Results and conclusions unchanged

Published
2018
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43. Probing BSM physics with electron-proton colliders

Author

Curtin, David, Deshpande, Kaustubh, Fischer, Oliver, and Zurita, Jose

Subjects
High Energy Physics - Phenomenology
Abstract

In this talk I will illustrate with two examples (Higgsino dark matter and Exotic Higgs decays) how electron-proton colliders present unique opportunities to probe BSM scenarios where proton-proton colliders fall short due to the experimental difficulties in reconstructing the signal due to the large hadronic backgrounds. The leit-motiv of these examples are long-lived particles (LLPs), which have received recently a lot of attention from both the experimental and theoretical communities. We find that the proposed $e^-p$ colliders can be competitive against their more energetic $pp$ incarnations for lifetimes between a millimeter and a micron, depending on the physics scenario under consideration., Comment: 5 pages, 3 figures, talk at the 26th International Workshop on Deep-Inelastic Scattering and Related Topics (DIS 2018)

Published
2018

44. Lepton Flavor Violating Dilepton Dijet Signatures from Sterile Neutrinos at Proton Colliders

Author

Antusch, Stefan, Cazzato, Eros, Fischer, Oliver, Hammad, A., and Wang, Kechen

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

In this article we investigate the prospects of searching for sterile neutrinos in lowscale seesaw scenarios via the lepton flavour violating (but lepton number conserving) dilepton dijet signature. In our study, we focus on the final state $e^\pm \mu^\mp jj$ at the HL-LHC and the FCC-hh (or the SppC). We perform a multivariate analysis at the detector level including the dominant SM backgrounds from di-top, di-boson, and tri-boson. Under the assumption of the active-sterile neutrino mixings $|V_{ l N}|^2=|\theta_e|^2=|\theta_\mu|^2$ and $|V_{ \tau N}|^2 = |\theta_\tau|^2=0$, the sensitivities on the signal production cross section times branching ratio $\sigma(p p \to l^\pm N)\times {\rm BR} (N \to l^{ \mp} jj)$ and on $|V_{ l N}|^2$ for sterile neutrino mass $M_N$ between 200 and 1000 GeV are derived. For the benchmark $M_N=500$ GeV, when ignoring systematic uncertainties at the HL-LHC (FCC-hh/SppC) with 3 (20) ${\rm ab}^{-1}$ luminosity, the resulting 2-$\sigma$ limits on $|V_{ l N}|^2$ are $4.9\times 10^{-3}$ ($7.0\times 10^{-5}$), while the 2 -$\sigma$ limit on $\sigma \times {\rm BR}$ are $4.4\times10^{-2}$ ($1.6\times10^{-2}$) fb, respectively. The effect of the systematic uncertainty is also studied and found to be important for sterile neutrinos with smaller masses. We also comment on searches with $\tau^\pm \mu^\mp jj$ and $\tau^\pm e^\mp jj$ final states., Comment: 20 pages, 9 figures

Published
2018
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45. Probing the Seesaw Mechanism and Leptogenesis with the International Linear Collider

Author

Antusch, Stefan, Cazzato, Eros, Drewes, Marco, Fischer, Oliver, Garbrecht, Bjorn, Gueter, Dario, and Klaric, Juraj

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

We investigate the potential of the International Linear Collider (ILC) to probe the mechanisms of neutrino mass generation and leptogenesis within the minimal seesaw model. Our results can also be used as an estimate for the potential of a Compact Linear Collider (CLIC). We find that heavy sterile neutrinos that simultaneously explain both, the observed light neutrino oscillations and the baryon asymmetry of the universe, can be found in displaced vertex searches at ILC. We further study the precision at which the flavour-dependent active-sterile mixing angles can be measured. The measurement of the ratios of these mixing angles, and potentially also of the heavy neutrino mass splitting, can test whether minimal type I seesaw models are the origin of the light neutrino masses, and it can be a first step towards probing leptogenesis as the mechanism of baryogenesis. Our results show that the ILC can be used as a discovery machine for New Physics in feebly coupled sectors that can address fundamental questions in particle physics and cosmology., Comment: Talk presented at the International Workshop on Future Linear Colliders (LCWS2017), Strasbourg, France, 23-27 October 2017. C17-10-23.2. 11 pages, 8 figures

Published
2018

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

Author

Curtin, David, Drewes, Marco, McCullough, Matthew, Meade, Patrick, Mohapatra, Rabindra N, Shelton, Jessie, Shuve, Brian, Accomando, Elena, Alpigiani, Cristiano, Antusch, Stefan, Arteaga-Velázquez, Juan Carlos, Batell, Brian, Bauer, Martin, Blinov, Nikita, Caballero-Mora, Karen Salomé, Chang, Jae Hyeok, Chun, Eung Jin, Co, Raymond T, Cohen, Timothy, Cox, Peter, Craig, Nathaniel, Csáki, Csaba, Cui, Yanou, D’Eramo, Francesco, Delle Rose, Luigi, Dev, PS Bhupal, Dienes, Keith R, Dror, Jeff A, Essig, Rouven, Evans, Jared A, Evans, Jason L, Tellez, Arturo Fernández, Fischer, Oliver, Flacke, Thomas, Fradette, Anthony, Frugiuele, Claudia, Fuchs, Elina, Gherghetta, Tony, Giudice, Gian F, Gorbunov, Dmitry, Gupta, Rick S, Hagedorn, Claudia, Hall, Lawrence J, Harris, Philip, Helo, Juan Carlos, Hirsch, Martin, Hochberg, Yonit, Hook, Anson, Ibarra, Alejandro, Ipek, Seyda, Jung, Sunghoon, Knapen, Simon, Kuflik, Eric, Liu, Zhen, Lombardo, Salvator, Lubatti, HJ, McKeen, David, Molinaro, Emiliano, Moretti, Stefano, Nagata, Natsumi, Neubert, Matthias, No, Jose Miguel, Olaiya, Emmanuel, Perez, Gilad, Peskin, Michael E, Pinner, David, Pospelov, Maxim, Reece, Matthew, Robinson, Dean J, Cahuantzi, Mario Rodríguez, Santonico, Rinaldo, Schlaffer, Matthias, Shepherd-Themistocleous, Claire H, Spray, Andrew, Stolarski, Daniel, Vasquez, Martin A Subieta, Sundrum, Raman, Thamm, Andrea, Thomas, Brooks, Tsai, Yuhsin, Tweedie, Brock, West, Stephen M, Young, Charles, Yu, Felix, Zaldivar, Bryan, Zhang, Yongchao, Zurek, Kathryn, and Zurita, José

Subjects
Large Hadron Collider, long-lived particles, hierarchy problem, dark matter, baryogenesis, neutrinos, simplified models, hep-ph, hep-ex, Mathematical Sciences, Physical Sciences, General Physics
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

48. New Physics Opportunities for Long-Lived Particles at Electron-Proton Colliders

Author

Curtin, David, Deshpande, Kaustubh, Fischer, Oliver, and Zurita, Jose

Subjects
High Energy Physics - Phenomenology
Abstract

Future electron-proton collider proposals like the LHeC or the FCC-eh can supply 1/ab of collisions with a center-of-mass energy in the TeV range, while maintaining a clean experimental environment more commonly associated with lepton colliders. We point out that this makes electron-proton colliders ideally suited to probe BSM signatures with final states that look like "hadronic noise" in the high-energy, pile-up-rich environment of hadron colliders. We focus on the generic vector boson fusion production mechanism, which is available for all BSM particles with electroweak charges at mass scales far above the reach of most lepton colliders. This is in contrast to previous BSM studies at these machines, which focused on BSM processes with large production rates from the asymmetric initial state. We propose to exploit the unique experimental environment in the search for long-lived particle signals arising from Higgsinos or exotic Higgs decays. At electron-proton colliders, the soft decay products of long-lived Higgsinos can be explicitly reconstructed ("displaced single pion"), and very short lifetimes can be probed. We find that electron-proton colliders can explore significant regions of BSM parameter space inaccessible to other collider searches, with important implications for the design of such machines., Comment: 16 pages, 11 figures

Published
2017
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49. Probing Leptogenesis at Future Colliders

Author

Antusch, Stefan, Cazzato, Eros, Drewes, Marco, Fischer, Oliver, Garbrecht, Bjorn, Gueter, Dario, and Klaric, Juraj

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

We investigate the question whether leptogenesis, as a mechanism for explaining the baryon asymmetry of the universe, can be tested at future colliders. Focusing on the minimal scenario of two right-handed neutrinos, we identify the allowed parameter space for successful leptogenesis in the heavy neutrino mass range between $5$ and $50$ GeV. Our calculation includes the lepton flavour violating contribution from heavy neutrino oscillations as well as the lepton number violating contribution from Higgs decays to the baryon asymmetry of the universe. We confront this parameter space region with the discovery potential for heavy neutrinos at future lepton colliders, which can be very sensitive in this mass range via displaced vertex searches. Beyond the discovery of heavy neutrinos, we study the precision at which the flavour-dependent active-sterile mixing angles can be measured. The measurement of these mixing angles at future colliders can test whether a minimal type I seesaw mechanism is the origin of the light neutrino masses, and it can be a first step towards probing leptogenesis as the mechanism of baryogenesis. We discuss how a stronger test could be achieved with an additional measurement of the heavy neutrino mass difference., Comment: 30 pages plus appendix, 13 figures, references added, discussion extended, two figures added, matches journal version

Published
2017
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50. Resolvable heavy neutrino-antineutrino oscillations at colliders

Author

Antusch, Stefan, Cazzato, Eros, and Fischer, Oliver

Subjects
High Energy Physics - Phenomenology
Abstract

Heavy neutrino-antineutrino oscillations can naturally appear in mechanisms of low scale neutrino mass generation, where pairs of heavy neutrinos have almost degenerate masses. We discuss the case where the heavy neutrinos are sufficiently long-lived to decay displaced from the primary vertex, such that the oscillations of the heavy neutrinos into antineutrinos can potentially be observed at the (high-luminosity) LHC and at currently planned future collider experiments. The observation of these oscillations would have far-reaching consequences: it would, for instance, prove the existence of lepton number violation and the Majorana nature of neutrino masses, and it would allow a deep insight into the nature of the neutrino mass generation mechanism., Comment: 6 pages + references, 3 figures, matches published version

Published
2017

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