Searching for long-lived particles at the LHC and beyond: Tenth workshop of the LLP Community

Europe/Zurich
Virtually, worldwide

Virtually, worldwide

James Beacham (Duke University (US)), Lisa Benato (Hamburg University (DE)), Margaret Susan Lutz (Tel Aviv University (IL)), Carlos Vazquez Sierra (CERN), Federico Leo Redi (CERN), José Francisco Zurita (IFIC - Univ. of Valencia and CSIC (ES)), Karri Folan Di Petrillo (Fermi National Accelerator Lab. (US)), Louie Dartmoor Corpe (CERN), Matthew Daniel Citron (Univ. of California Santa Barbara (US)), Sascha Mehlhase (LMU Munich), Albert De Roeck (CERN)
Description

https://cern.ch/longlivedparticles

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The tenth LLP Community workshop will occur from 9 to 12 November, 2021, fully virtually again, and the agenda is now live!

Please join us for the hottest-and-latest in LLPs around the globe.

Registration
Registration for the tenth workshop of the LLP Community
Participants
  • Ahmed Hammad
  • Ajay Kumar
  • Akanksha Vishwakarma
  • Albert De Roeck
  • Alberto Escalante Del Valle
  • Alberto Mariotti
  • Aldo Penzo
  • Alessandro Biondini
  • Alessandro Morandini
  • Alexander Kish
  • Alexeii Kurepin
  • Alexey Boyarsky
  • Alexey Kurepin
  • Alexx Perloff
  • Alison Elliot
  • Ana Peixoto
  • Andre Lessa
  • Andrea Coccaro
  • Andrea Mitridate
  • Andreas Korn
  • Andres Mendez
  • Andrii Usachov
  • Ang Li
  • Anna Mascellani
  • Annapaola De Cosa
  • Anshul Kapoor
  • Antoine Ethève
  • Antoine Lesauvage
  • Aran Garcia-Bellido
  • Arantza Oyanguren
  • Aris-George-Baldur Spourdalakis
  • Arsenii Titov
  • Artur Apresyan
  • Audrey Katherine Kvam
  • Baibhab Pattnaik
  • Basile Vermassen
  • Begona De La Cruz
  • Belen Gavela
  • Benjamin Fuks
  • Benjamin Michael Cote
  • Biplab Dey
  • BIPLOB BHATTACHERJEE
  • Bora Isildak
  • Bora Isildak
  • Brij Kishor Jashal
  • Brooks Thomas
  • Bryan Cardwell
  • Bryan Zaldívar
  • Burak Hacisahinoglu
  • cagdas simsek
  • Caleb Gemmell
  • Carlos Marinas
  • Carlos Vazquez Sierra
  • Caterina Doglioni
  • Celia Fernandez Madrazo
  • Cesare Tiziano Cazzaniga
  • Chaochen Yuan
  • Chris Hill
  • Christian Appelt
  • Christian Preuss
  • Christina Wang
  • Claire David
  • Cristiano Alpigiani
  • Cristiano Sebastiani
  • Cristián Peña
  • Dan Green
  • Daneng Yang
  • Daniele Trocino
  • Darij Markian Starko
  • Darin Acosta
  • Dave Cutts
  • David Vannerom
  • Davide Zuliani
  • Debjyoti Bardhan
  • Deniz Sunar Cerci
  • Devin Mahon
  • Diana Rojas-Ciofalo
  • Dong Woo Kang
  • Doojin Kim
  • Edis Tireli
  • Edis Tireli
  • Elena Michelle Villhauer
  • Elizaveta Cherepanova
  • Emanuela Musumeci
  • Emery Nibigira
  • Emil Haines
  • Emily Anne Thompson
  • Emma Torro Pastor
  • Ennio Salvioni
  • Eric Van Herwijnen
  • Estifa'a Zaid
  • Federico Leo Redi
  • Federico Meloni
  • Filip Moortgat
  • Flavia De Almeida Dias
  • Florian Eble
  • Francesco Cerutti
  • Gael ALGUERO
  • Gaia Lanfranchi
  • Garv Chauhan
  • Gentian Shatri
  • Gianluigi Arduini
  • Gillian Kopp
  • Giovanna Cottin
  • Giulia Gonella
  • Giuliano Gustavino
  • Gordon Watts
  • Greg Landsberg
  • Gregor Kasieczka
  • Guillaume Lucas Albouy
  • Guillermo Nicolas Hamity
  • Haifa Rejeb Sfar
  • Hajime Fukuda
  • Hale Sert
  • hani maalouf
  • Henry Lubatti
  • Hideyuki Oide
  • Hsin-Chia Cheng
  • Hwi Dong Yoo
  • Iacopo Longarini
  • Inar Timiryasov
  • Ioannis Gkialas
  • Ionel LAZANU
  • Ivania Maturana Ávila
  • Jacek Osinski
  • Jack Araz
  • Jack Gargan
  • Jackson Carl Burzynski
  • Jae Hyeok Yoo
  • James Beacham
  • James Pinfold
  • Jamie Boyd
  • Jan Hajer
  • Jan Kieseler
  • Jan Steggemann
  • Jared Barron
  • Jean-Loup Tastet
  • Jesus Manuel Vizan Garcia
  • Jianfeng Tu
  • Jinmian Li
  • John Parsons
  • John Stupak
  • Jonathan Lee Feng
  • Jonathan Long
  • Jonathan Schubert
  • Jorge Andres Sabater Iglesias
  • Joscha Knolle
  • Joseph Reichert
  • José Francisco Zurita
  • José W F Valle
  • Judita Mamuzic
  • Juhi Dutta
  • Julia Lynne Gonski
  • Julia-Suzana Dancu
  • Julian Günther
  • Juliana Carrasco
  • Juliette Alimena
  • Junle Pei
  • Juraj Klaric
  • Kai Zheng
  • Kailash Raman
  • Karem Peñaló Castillo
  • Karim El Morabit
  • Karla Pena
  • Karri Folan Di Petrillo
  • Kayoung Ban
  • Keith Dienes
  • Kevin Urquia
  • Kevin Urquía
  • Kingman Cheung
  • Krzysztof Jodlowski
  • Kuanyu Chen
  • Lambert Lin
  • Lawrence Lee Jr
  • Leonidas Fountas
  • Lesya Horyn
  • Liam Wezenbeek
  • LINGFENG LI
  • Lisa Benato
  • Louie Dartmoor Corpe
  • Louis Henry
  • Luiz Emediato
  • Mads Hyttel
  • Maksym Ovchynnikov
  • Malgorzata Kazana
  • Mangesh Sonawane
  • Marco Drewes
  • Margaret Susan Lutz
  • Maria Giulia Collura
  • Marie-Helene Genest
  • Marie-Louise Riis
  • Mariia Didenko
  • Mario Masciovecchio
  • Mark Goodsell
  • Martin Hirsch
  • Martina Vit
  • Mason Proffitt
  • Matthew Daniel Citron
  • Matthew Feickert
  • Matthew Low
  • Matthew Strassler
  • Matthias Danninger
  • Mauro Valli
  • Melissa Yexley
  • Michael Albrow
  • Michael Andrews
  • Michael William Carrigan
  • Michele Lucente
  • Miha Nemevšek
  • Mihaela Parvu
  • Mohamed Darwish
  • Moritz Jonas Wolf
  • Muhammad Farooq
  • Niki Saoulidou
  • Nishita Desai
  • Oleg Brandt
  • Oleg Ruchayskiy
  • Oleksii Mikulenko
  • Pablo Candia da Silva
  • Paolo Sabatini
  • Paul de Bryas
  • Pavlo Kashko
  • Peace Kotamnives
  • Prabhat Solanki
  • Rebeca Beltran
  • Rebeca Gonzalez Suarez
  • Rhitaja Sengupta
  • Ritchie Patterson jrp3@cornell.edu
  • ROJALIN PADHAN
  • Roshan Mammen Abraham
  • Rustem Ospanov
  • Ruth Schäfer
  • Ryan Sangwoo Kim
  • Ryan Schmitz
  • Ryu Sawada
  • Sabine Kraml
  • Sam Junius
  • Santiago Folgueras
  • Sara Alderweireldt
  • Sara Fiorendi
  • Sascha Mehlhase
  • Saurabh Nangia
  • Sergio Grancagnolo
  • Serhii Cholak
  • Shaun Patrick Hogan
  • Shiva Bikram Thapa
  • Si Hyun Jeon
  • Si Xie
  • Sinead Farrington
  • Soumya Dansana
  • Sreemanti Chakraborti
  • Sreemanti Chakraborti
  • Stefan Antusch
  • Stefanie Morgenstern
  • Stefano Giagu
  • Steven Lowette
  • Suat Ozkorucuklu
  • Sudhir Malik
  • Sudip Jana
  • Sukanya Sinha
  • Susanne Westhoff
  • Tal van Daalen
  • Tania Robens
  • Tanvi Wamorkar
  • Theodota Lagouri
  • Timothee Pascal
  • Timothee PASCAL
  • Tina Tallon
  • Tobias Boeckh
  • Todd Adams
  • Toshiaki Kaji
  • Tova Ray Holmes
  • Van Que Tran
  • Vasiliki Mitsou
  • Vazha Loladze
  • Viatcheslav Valuev
  • Victoria Sanchez Sebastian
  • Viktor Kryshtal
  • Víctor Muñoz
  • Wen Han Chiu
  • Wen Yi Song
  • Wendy Taylor
  • Wolfgang Waltenberger
  • Xabier Cid Vidal
  • Yannis Georis
  • Yanyan Gao
  • Yasar Onel
  • Yevgeny Kats
  • Yongchao Zhang
  • Yueh-Shun Li
  • Yumeng Cao
  • Yuri Gershtein
  • Zachary Pollock
  • Zeren Simon Wang
  • Zhen Liu
  • Zhen Liu
    • 1
      Welcome and introduction
      Speaker: James Beacham (Duke University (US))
    • Dedicated LLP detectors and projects: Session 1
      Conveners: Albert De Roeck (CERN), Karri Folan Di Petrillo (Fermi National Accelerator Lab. (US))
      • 2
        Why so many LLP detectors?
        Speaker: Matthew Daniel Citron (Univ. of California Santa Barbara (US))
      • 3
        SHADOWS (20+5)

        We propose a new beam-dump experiment, SHADOWS, to search for a large variety of feebly-interacting particles possibly produced in the interactions of a 400 GeV proton beam with a high-Z material dump. SHADOWS will use the 400 GeV primary proton beam extracted from the CERN SPS currently serving the NA62 experiment in the CERN North area and will take data off-axis when the P42 beam line is operated in beam-dump mode. SHADOWS can accumulate up to a ~2 x10^19 protons on target per year and expand the exploration for a large variety of FIPs well beyond the state-of-the-art in the mass range of MeV-GeV in a parameter space that is allowed by cosmological and astrophysical observations. So far the strongest bounds on the interaction strength of new feebly-interacting light particles with Standard Model particles exist up to the kaon mass; above this threshold the bounds weaken significantly. SHADOWS can do an important step into this still poorly explored territory and has the potential to discover them if they have a mass between the kaon and the beauty mass. If no signal is found, SHADOWS will push the limits on their couplings with SM particles between one and four orders of magnitude in the same mass range, depending on the model and scenario.

        Speaker: Gaia Lanfranchi (INFN e Laboratori Nazionali di Frascati (IT))
      • 4
        SUBMET (12+5)

        We studied the feasibility of an experiment searching for sub-millicharged particles (χs) using 30 GeV proton fixed-target collisions at J-PARC. The detector is composed of two layers of stacked scintillator bars and PMTs and is proposed to be installed 280 m from the target. The main background is a random coincidence between two layers due to dark counts in PMTs, which can be reduced to a negligible level using the timing of the proton beam. With NPOT=1022 which corresponds to running the experiment for three years, the experiment provides sensitivity to χs with the charge down to 5×10−5 in mχ<0.2 GeV/c2 and 8×10−4 in mχ<1.6 GeV/c2. This is the regime largely uncovered by the previous experiments. We also explored a few detector designs to achieve an optimal sensitivity to χs. The photoelectron yield is the main driver, but the sensitivity does not have a strong dependence on the detector configuration in the sub-millicharge regime.

        Speaker: Jae Hyeok Yoo (Korea University (KR))
      • 5
        MoEDAL (12+5)

        We shall present the latest results from the MoEDAL-MAPP experiment and a review of ongoing and future work on the search for HIPs. In addition, we shall review the status of the MAPP Phase-1 extension to the MoEDAL experiment to be deployed in UA83. the MAPP Phase-1 and Phase-2 detectors are designed to extend the physics reach of MoEDAL to include mCP effectively mCP, LLP and LLCP avatars of new physics.

        Speaker: James Pinfold (University of Alberta (CA))
    • 15:19
      Coffee
    • Dedicated LLP detectors and projects: Session 2
      Conveners: Federico Leo Redi (CERN), Dr Louie Dartmoor Corpe (CERN)
      • 6
        Long-lived particles at the LUXE experiment (12+5)

        The proposed LUXE experiment (LASER Und XFEL Experiment) at DESY, Hamburg, using the electron beam from the European XFEL, aims to probe QED in the non-perturbative regime created in collisions between high-intensity laser pulses and high-energy electron or photon beams. This setup also provides a unique opportunity to probe physics beyond the standard model. In this talk we show that by leveraging the large photon flux generated at LUXE, one can probe long-lived axion-like-particles (ALPs) up to a mass of 350 MeV and with photon coupling of 3x10^{-6} GeV^{-1} as well as other long-lived scalars. This reach is comparable to FASER2 and NA62. In addition, we will discuss other probes of new physics such as ALPs-electron coupling.

        Speaker: Federico Meloni (Deutsches Elektronen-Synchrotron (DE))
      • 7
        The SND@LHC experiment at CERN (12+5)

        SND@LHC is a compact and stand-alone experiment to perform measurements with neutrinos produced at the LHC in a hitherto unexplored pseudo-rapidity region of 7.2 < 𝜂 < 8.6, complementary to all the other experiments at the LHC. The experiment is to be located 480 m downstream of IP1 in the unused TI18 tunnel. The detector is composed of a hybrid system based on an 800 kg target mass of tungsten plates, interleaved with emulsion and electronic trackers, followed downstream by a calorimeter and a muon system. The configuration allows efficiently distinguishing between all three neutrino flavours, opening a unique opportunity to probe physics of heavy flavour production at the LHC in the region that is not accessible to ATLAS, CMS and LHCb. This region is of particular interest also for future circular colliders and for predictions of very high-energy atmospheric neutrinos. The detector concept is also well suited to searching for Feebly Interacting Particles via signatures of scattering in the detector target. The first phase aims at operating the detector throughout LHC Run 3 to collect a total of 150 fb−1. We report here the status of detector construction and its physics case.

        Speaker: Eric Van Herwijnen (National University of Science and Technology "MISIS" (RU))
      • 8
        Status of the Run 3 milliQan detector (12+5)

        In the previous LLP workshop we presented our design for the next generation milliQan detectors and their expected combined sensitivity with the Run 3 dataset. For this meeting, we will present the progress on the construction of these detectors, which are planned to be installed in PX56 at LHC P5, above CMS, prior to the start of Run 3.

        Speaker: Michael William Carrigan (Ohio State University (US))
    • 16:20
      Coffee
    • Dedicated LLP detectors and projects: Session 3
      Conveners: Albert De Roeck (CERN), Karri Folan Di Petrillo (Fermi National Accelerator Lab. (US))
      • 9
        FPF (20+5)

        The Forward Physics Facility (FPF) is a proposal to create a cavern with the space and infrastructure to support a suite of far-forward experiments at the Large Hadron Collider during the High Luminosity era. Located along the beam collision axis and shielded from the interaction point by at least 100 m of concrete and rock, the FPF will house experiments that will detect particles outside the acceptance of the existing large LHC experiments and will observe rare and exotic processes in an extremely low-background environment. In this work, we summarize the current status of plans for the FPF, including recent progress in civil engineering in identifying promising sites for the FPF and the experiments currently envisioned to realize the FPF's physics potential. We then review the many Standard Model and new physics topics that will be advanced by the FPF, including searches for long-lived particles, probes of dark matter and dark sectors, high-statistics studies of TeV neutrinos of all three flavors, aspects of perturbative and non-perturbative QCD, and high-energy astroparticle physics.

        Speaker: Jamie Boyd (CERN)
      • 10
        Detecting long-lived particles trapped in detector material at the LHC (12+5)

        We propose to implement a two-stage detection strategy for exotic long-lived particles that could be produced at the CERN LHC, become trapped in detector material, and decay later. The proposed strategy relies on an array of metal rods, combined to form a high-density target. In a first stage, the rods are exposed to radiation from LHC collisions in one of the experimental caverns. In a second stage, they are individually immersed in liquid argon in a different experimental hall, where out-of-time decays could produce a detectable signal. Using a benchmark case of long-lived gluino pair production, we show that this experiment would be sensitive to a wide range of masses. Such an experiment would have unique sensitivity to gluino-neutralino mass splittings down to 3 GeV, in previously uncovered particle lifetimes ranging from days to years.

        Speaker: Jan Kieseler (CERN)
      • 11
        CODEX-b (12+5)

        CODEX-b is a promising proposal to detect LLPs at the LHC. CODEX-b will be situated next to the LHCb detector, behind a 3 m thick concrete radiation shield, approximately 25 m from the LHCb pp interaction point. In this talk we will present the status of CODEX-b as well as that of CODEX-beta, a demonstrator detector to be installed in the same location during Run 3 of the LHC.

        Speaker: Louis Henry (CERN)
      • 12
        Progress on FASER and FASERnu (12+5)

        The FASER experiment consists of two detectors, FASER and FASERnu, that will search for new particles and detect roughly 10,000 neutrino interactions at TeV energies in LHC Run 3. In this talk, we will present updates on the status of these detectors, including their construction, commissioning, results from test beam runs, and future prospects.

        Speaker: Tobias Boeckh (University of Bonn (DE))
    • 17:46
      Workshop photo
    • 17:51
      Coffee
    • Dedicated LLP detectors and projects: Session 4
      Conveners: James Beacham (Duke University (US)), Margaret Susan Lutz (Tel Aviv University (IL))
      • 13
        MATHUSLA (12+5)

        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.

        Speaker: Emma Torro Pastor (Univ. of Valencia and CSIC (ES))
      • 14
        FACET (15+5)

        We intend to develop a proposal to search for BSM long-lived particles (LLPs), such as dark photons with mA′ < 20 GeV, in the forward direction of IR5 (CMS), penetrating 35 m– 50 m of steel in the Q1 – Q3 quadrupoles and D1 dipole, and either decaying in a large vacuum pipe or interacting in an imaging calorimeter. Neutral LLPs with |η|> 8 decaying after traversing 83 m of vacuum may also be detected if their mass is several GeV.

        Speaker: Dan Green (Fermi National Accelerator Lab. (US))
    • 18:37
      Coffee
    • Belle II: (All talks 12+3)
      Conveners: José Francisco Zurita (IFIC - Univ. of Valencia and CSIC (ES)), Dr Louie Dartmoor Corpe (CERN)
      • 18
        Probing charged lepton flavor violation with axion-like particles at Belle II

        We study charged lepton flavor violation associated with a light leptophilic axion-like particle (ALP), $X$, at the $B$-factory experiment Belle II. We focus on production of the ALP in the tau decays $\tau \to X l$ with $l=e,\mu$, followed by its decay via $X\to l^- l^+$. The ALP can be either promptly decaying or long-lived. We perform Monte-Carlo simulations, recasting a prompt search at Belle for lepton-flavor-violating $\tau$ decays, and propose a displaced-vertex (DV) search. For both types of searches, we derive the Belle II sensitivity reaches in both the product of branching fractions and the ALP coupling constants, as functions of the ALP mass and lifetime. The results show that the DV search exceeds the sensitivity reach of the prompt search to the relevant branching fractions by up to about a factor of 40 in the long decay length regime.

        Speaker: Zeren Simon Wang (National Tsing Hua University)
      • 19
        Long-lived Sterile Neutrinos at Belle II in Effective Field Theory

        At Belle II, large and clean samples of $\tau$ leptons are produced and may decay to sterile neutrinos. For the relevant mass range, such sterile neutrinos are typically long-lived, leading to displaced-vertex (DV) signatures at colliders. Here, we study a DV search of sterile neutrinos at Belle II in the framework of the sterile-neutrino-extended Standard Model Effective Field Theory ($\nu$SMEFT). The production and decay of the sterile neutrinos can be realized via either the standard active-sterile neutrino mixing or higher-dimensional operators in $\nu$SMEFT. We perform Monte-Carlo simulations to estimate the Belle II sensitivities to such sterile neutrinos, and find that Belle II can probe non-renormalizable dimension-six operators involving one sterile neutrino up to 3 TeV in the new-physics scale.

        Speaker: Julian Günther
      • 20
        Heavy QCD Axion at Belle II: Displaced and Prompt Signals

        The QCD axion is a well-motivated addition to the standard model to solve the strong $CP$ problem. If the axion acquires mass dominantly from a hidden sector, it can be as heavy as $O(1)$ GeV, and the decay constant can be as low as $O(100)$ GeV without running into the axion quality problem. We propose new search strategies for such heavy QCD axions at the Belle II experiment, where the axions are expected to be produced via $B\to K a$. We find that a subsequent decay $a\to 3\pi$ with a displaced vertex leads to a unique signal with essentially no background, and that a dedicated search can explore the range $O(1$-$10)$ TeV of decay-constant values. We also show that $a\to \gamma\gamma$ can cover a significant portion of currently unexplored region of $150 < m_a < 500$ MeV.

        Speaker: Vazha Loladze (Florida State University)
      • 21
        Displaced or Invisible? ALPs from B decays at Belle II

        At collider experiments, long-lived particles may decay displaced within the detector or leave the detector as missing energy, depending on their lifetime and on the detector geometry. To exploit this complementarity, we propose a new search strategy for invisible ALPs in $B^+\to K^+ a$ decays at Belle II. We compare our predictions with existing and future searches for displaced vertices from $B^+\to K^+ a(\to\mu^+\mu^-)$ decays. This example demonstrates how to maximize the sensitivity to long-lived particles over a wide range of lifetimes by combining searches with displaced vertices and missing energy.

        Speaker: Ruth Schäfer
    • 15:00
      Coffee
    • Heavy neutral leptons (HNLs) session
      Conveners: Albert De Roeck (CERN), Federico Leo Redi (CERN)
      • 22
        Introduction and news
        Speaker: Federico Leo Redi (CERN)
      • 23
        Updates from theory, a personal perspective
        Speaker: Marco Drewes (Universite Catholique de Louvain (UCL) (BE))
      • 24
        HNLs production from mesons
        Speaker: Philip Ilten (University of Cincinnati (US))
    • 16:10
      Coffee
    • 18:00
      Coffee
    • Quirks
      Conveners: James Beacham (Duke University (US)), Karri Folan Di Petrillo (Fermi National Accelerator Lab. (US))
      • 30
        The quirk signal at the FASER (12+3)

        We study the FASER sensitivity to the quirk signal by simulating the motions of quirks that are travelling through several infrastructures from the ATLAS interaction point to the FASER detector. The ionization energy losses for a charged quirk travelling in different materials are treated carefully. Assuming negligible background, the exclusion limits for quirks of four different quantum numbers are obtained for an integrated luminosity of 300 fb$^{-1}$. The features of the quirk signals at the FASER detector are also discussed.

        Speaker: Mr Junle Pei (Institute of Theoretical Physics, Chinese Academy of Sciences)
      • 31
        Why aren't there any quirks results from ATLAS or CMS yet? (12+3)
        Speaker: Zach Marshall (Lawrence Berkeley National Lab. (US))
    • 18:40
      Coffee
    • Keynote talk: Theory and Simulation Challenges for Hidden Valleys/Dark Sectors
      Conveners: James Beacham (Duke University (US)), Matthew Daniel Citron (Univ. of California Santa Barbara (US))
    • Machine Learning for LLPs
      Conveners: Federico Leo Redi (CERN), Lisa Benato (Hamburg University (DE))
    • Coffee
    • Re-interpretations and likelihoods: Part 1 (All talks 12+3)
      Conveners: Karri Folan Di Petrillo (Fermi National Accelerator Lab. (US)), Lisa Benato (Hamburg University (DE))
      • 37
        Recasting long-lived particle searches at the LHC with CheckMATE 2
        Speaker: Zeren Simon Wang (National Tsing Hua University)
      • 38
        Recasting the CMS disappearing track search(es)
        Speaker: Mark Dayvon Goodsell (Centre National de la Recherche Scientifique (FR))
      • 39
        Dedicated Delphes Module for Neutral Long-lived Particles Decaying in the CMS Endcap Muon Detectors
        Speaker: Christina Wenlu Wang (California Institute of Technology (US))
    • Coffee
    • Re-interpretations and likelihoods: Part 2
      Conveners: Albert De Roeck (CERN), Matthew Daniel Citron (Univ. of California Santa Barbara (US))
    • Re-interpretations and likelihoods: Joint session with RiF on publishing likelihoods
      Conveners: Albert De Roeck (CERN), Louie Dartmoor Corpe (CERN)
      • 43
        Experience with LLP likelihoods from SModelS
        Speaker: Sabine Kraml (LPSC Grenoble)
      • 44
        pyhf: intro from the developers
        Speaker: Lukas Alexander Heinrich (CERN)
      • 45
        Discussion on publishing likelihoods for LLP searches
        Speaker: Dr Louie Dartmoor Corpe (CERN)
    • Coffee
    • Lightning round / new ideas: Session 1 (All talks 12+3)
      Conveners: Dr Louie Dartmoor Corpe (CERN), Margaret Susan Lutz (Tel Aviv University (IL))
    • Lightning round / new ideas: Session 2
      Conveners: Federico Leo Redi (CERN), José Francisco Zurita (IFIC - Univ. of Valencia and CSIC (ES))
      • 49
        Time-delayed electrons from neutral currents at the LHC
        Speaker: Zeren Simon Wang (National Tsing Hua University)
      • 50
        Exploring long-lived particles and its properties at colliders
        Speaker: Dong Woo Kang (KIAS)
      • 51
        Heavy long-lived coannihilation partner from inelastic Dark Matter model and its signatures at the LHC [CANCELLED]
        Speaker: Xiao-Ping Wang
      • 52
        Early Matter Domination from Long-Lived Particles in the Visible Sector
        Speaker: Jacek Osinski (AstroCeNT, Nicolaus Copernicus Astronomical Center of the Polish Academy of Sciences)
    • Coffee
    • Lightning round / new ideas: Session 3
    • Coffee
    • Lightning round / new ideas: Session 4
      Conveners: James Beacham (Duke University (US)), Louie Dartmoor Corpe (CERN)
      • 55
        Simulating a Pure Gluon Shower for Dark Sector Searches
        Speaker: Caleb Gemmell (University of Toronto)
      • 56
        Revisiting the scotogenic model with scalar dark matter
        Speaker: Ivania Maturana Ávila (Universidad Adolfo Ibáñez)
      • 57
        On long-lived electroweak-singlet coloured scalars
        Speaker: Christian Preuss (ETH Zürich)
      • 58
        Indirect detection of long-lived particles via a less-simplified dark Higgs portal
        Speaker: Krzysztof Jodlowski
    • Coffee
    • Lightning round / new ideas: Session 5
      Conveners: José Francisco Zurita (IFIC - Univ. of Valencia and CSIC (ES)), Margaret Susan Lutz (Tel Aviv University (IL))
    • Coffee
    • LHC LLP Working Group [cancelled]