Exotic Hadron Spectroscopy 2023

Europe/London
Institute for Particle Physics Phenomenology Durham University Durham DH1 3LF
Description
Conference photo

The workshop, to be held at the Institute for Particle Physics Phenomenology (IPPP) at Durham University, brings together the nuclear and particle physics communities to discuss the latest developments (experimental and theoretical) in exotic and conventional hadron spectroscopy.

The spectrum of hadrons has become increasingly rich in recent years, owing to ongoing experimental discoveries at both particle and nuclear physics experiments. The properties of known states have been measured with improved precision, and many new states (both conventional and exotic) have been discovered. Often similar states and search methods are discussed separately in the particle and nuclear physics communities, with little interaction between them. This workshop facilitates communication between these communities, with the ultimate aim of improving our understanding of the spectrum of hadrons. A particular focus is new analysis methods and search strategies for current and future experimental facilities (CERN, JLab, Mainz, BESIII, BelleII, PANDA).

This is the fourth in a series of workshops on this topic, following previous events at the University of Edinburgh and the University of York:

Thanks to financial support from the IPPP, The Royal Society and the Institute of Physics, there is no registration fee and we expect to be able to provide tea/coffee breaks, two lunches and one dinner at no cost to participants.

We have a limited amount of funding to support early-stage researchers with limited budgets interested in attending this workshop. If you want to apply for this funding, please contact the organisers with your CV, details of your current position, and a brief summary (1 paragraph) of why you would like to attend and how you would contribute to the workshop. Applications will be reviewed on a rolling basis.

The deadline for abstracts is 20 February 2023 and the deadline for registration is 20 March 2023.

Some accommodation will be available in Collingwood College -- see the accommodation page for details. Information on how to get to Durham, the IPPP and Collingwood College is available on Travel to Durham page.

Organising Committee: Ben Pecjak (Durham), Bryan McKinnon (Glasgow), Christopher Thomas (Cambridge), Dan Watts (York), Mark Whitehead (Glasgow), Mikhail Bashkanov (York), Muhammad Naeem Anwar (Swansea), Tim Burns (Swansea).

Sponsors: $\hspace{0.1cm}$ $\bullet$ UKRI-STFC $\hspace{0.1cm}$ $\bullet$ IPPP Durham University $\hspace{0.1cm}$ $\bullet$ The Royal Society $\hspace{0.1cm}$ $\bullet$ Institute of Physics

    

Participants
  • Adam Szczepaniak
  • Ben Page
  • Benjamin Pecjak
  • Bryan McKinnon
  • Chen Chen
  • Christopher Thomas
  • Daniel Watts
  • Daniel Yeo
  • David Wilson
  • Derek Glazier
  • Elena Santopinto
  • Feng-Kun Guo
  • Heinz Clement
  • Jozef Dudek
  • Mark Whitehead
  • Martin Pflaumer
  • Mikhail Bashkanov
  • Mikhail Mikhasenko
  • Muhammad Naeem Anwar
  • Nicholas Zachariou
  • Peter Hurck
  • Rhidian Williams
  • Richard Tyson
  • Ryan Bignell
  • Ryan Ferguson
  • Sasa Prelovsek
  • Stefanos Paschalis
  • Stuart Fegan
  • Thomas Jude
  • Timothy Burns
  • Travis Whyte
  • Vincent Mathieu
  • Volker Metag
  • WEIMIN SONG
  • William Booth
  • Wolfgang Gradl
  • Yingchun ZHU
  • Zhen Hu
    • 12:30 13:00
      Arrival and tea/coffee 30m
    • 13:00 14:40
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Mikhail Bashkanov (University of York)
      • 13:00
        Welcome 10m
        Speaker: Timothy Burns (Swansea University)
      • 13:10
        Hadron spectroscopy at GlueX 30m

        The study of the spectrum of hadrons provides important insights into the interaction of the strong force. Photoproduction experiments play a key role in these investigations and are used in the search for hadrons with both conventional as well as exotic quantum numbers, such as mesons with gluonic degrees of freedom.
        The GlueX experiment at Jefferson Lab, features a 9 GeV linearly polarized photon beam incident on a LH2 target, which is surrounded by an almost hermetic detector system. This makes GlueX an ideal tool to search for hadrons in a wide variety of final states with both charged and neutral final state particles, including strange hadrons decaying into kaons.
        This talk presents results for from our initial campaign of data taking.

        Speaker: Peter Hurck (University of Glasgow)
      • 13:40
        Role of a triangular singularity in the γ p → p π0 η reaction 30m

        Recently structures in invariant mass distributions and excitation energy spectra have been attributed to triangular singularities as discussed in e.g.,[1,2] and in the review by Guo et al. [3]. These singularities emerge under specific kinematic conditions when new reaction channels open up. It will be shown that a triangular singularity associated with the opening of the γ p →p a0 → p π0 η
        channel may explain a structure in the Mpη  invariant mass distribution near 1700 MeV/c2 observed in the γ p → p π0 η reaction [4].

        [1] G. D. Alexeev et al., The COMPASS Collaboration, Phys. Rev. Lett
        127, 082501 (2021)
        [2] M. Mikhasenko, B. Ketzer and A. Sarantsev, Phys. Rev. D 91, 094015
        (2015).
        [3] F. K. Guo et al., Rev. Mod. Phys. D 90, 015004 (2018).
        [4] V. Metag et al., EPJA 57 (2021) 325.
        Supported by DFG through SFB/TR16.

        Speaker: Volker Metag (II. Physikalisches Institut, University of Giessen,Germany)
      • 14:10
        Light hadron spectroscopy at BESIII 30m

        Using the world’s largest samples of $J/\psi$ and $\psi(3686)$ events produced in $e^+e^-$ annihilation, BESIII is uniquely positioned to study light hadrons in radiative and hadronic charmonium decays. In particular, exotic hadron candidates including multiquark states, hybrid mesons and glueballs can be studied in high detail. Recent highlights from the light hadron spectroscopy program, including the observation of an iso-scalar spin-exotic $1^{-+}$ state $\eta_1(1855)$ in $J/\psi\to \gamma \eta \eta^\prime$, the observation of $X(2600)$ in $J/\psi\to\gamma \pi^+\pi^-\eta^\prime$, a study of $\eta(1405)$and $\eta(1475)$ in $J/\psi\to \gamma K_S^0 K_S^0\pi^0$ and a partial wave analysis of the decay $J/\psi\to \gamma \eta^\prime\eta^\prime$, will be presented.

        Speaker: Yingchun Zhu (University of Science and Technology of China)
    • 14:40 15:10
      Tea/coffee break 30m
    • 15:10 16:40
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Bryan McKinnon (University of Glasgow)
      • 15:10
        Discriminating among interpretations for the X(2900) states 30m

        We make predictions for the production and decays of X(2900) states, and their possible charged partners, in B+ and B0 decays, considering a number of competing models for the states, including triangle diagrams mediated by quark exchange or pion exchange, and resonance scenarios including molecules and tetraquarks. Assuming only isospin symmetry and the dominance of color-favored weak decays, we find characteristic differences in the predictions of the different models. Future experimental studies can therefore discriminate among the competing interpretations for the states.

        Speaker: Timothy Burns (Swansea University)
      • 15:40
        Recent results on exotic hadrons from BESIII 30m

        A `second charm revolution' was sparked with the discovery of new
        'XYZ' states, such as the $X(3872)$ or the $Y(4260)$ by the B factories
        Belle and BABAR. These states do not fit into the conventional
        picture of quark-antiquark bound systems. A number of further,
        non-conventional bound states have been discovered in different
        production processes at several experiments.

        This talk will highlight several new states recently discovered at
        BESIII, both in the light quark and the charmonium(-like) sector.

        Speaker: Wolfgang Gradl (JGU Mainz, Inst. f. Nuclear Physics)
      • 16:10
        J/ψ Near-Threshold Photoproduction at JLab 30m

        J/ψ near threshold photoproduction plays a key role in the physics program at the Thomas Jefferson National Accelerator Facility (JLab) 12 GeV upgrade due to the wealth of information it has to offer. J/ψ photoproduction proceeds through the exchange of gluons in the t-channel and is expected to provide unique insight about the nucleon gravitational form factors and the nucleon mass radius.

        The JLab CLAS, J/ψ-007 and GlueX Collaborations, based in Halls B, C and D respectively, aim to or have already measured the J/ψ near threshold photoproduction cross section using both hydrogen and deuteron targets. These offer the possibility of measuring the free proton, bound proton and bound neutron mass radii, with several measurements already published and additional analyses currently ongoing. This talk will describe the aims and experimental design for the measurements of J/ψ near threshold photoproduction on the proton, bound proton and bound neutron at JLab along with the current and upcoming results.

        Speaker: Richard Tyson (University of Glasgow)
    • 16:40 17:10
      Discussion Room OC218 (IPPP)

      Room OC218

      IPPP

    • 18:00 19:00
      Dinner at Collingwood College 1h
    • 09:00 10:30
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Christopher Thomas (University of Cambridge)
      • 09:00
        Exploring meson resonances using lattice QCD 30m

        Lattice QCD provides a means to rigorously compute hadronic scattering amplitudes within which hadron resonances appear. I'll show examples of the determination of resonances (non-exotic, exotic and possibly exotic) in coupled-channel situations, and illustrate how, by coupling scattering systems to external currents, we can study production mechanisms and explore resonance internal structure.

        Speaker: Jozef Dudek (Jefferson Lab)
      • 09:30
        Latest exotic spectroscopy results from LHCb 30m

        As a unique probe to low-energy properties of the strong interaction, exotic hadrons are of great interest in both theoretical and experimental communities. In recent years, LHCb have discovered dozens of such particles, providing fruitful inputs to the theoretical studies of the exotic hadron spectroscopy. The story is still going on, and some latest results about exotic hadrons from LHCb are presented in this talk.

        Speaker: Chen Chen (Aix Marseille Univ, CNRS/IN2P3, CPPM, Marseille, France)
      • 10:00
        Tetraquarks with two heavy quarks from lattice QCD 30m

        I will discuss lattice QCD results on various tetraquarks with two heavy quarks or a heavy quark and an antiquark. This will include the doubly charm tetraquark and charmonium-like channels, which are of current experimental interest.

        Speaker: Sasa Prelovsek (University of Ljubljana)
    • 10:30 11:00
      Tea/coffee break 30m
    • 11:00 12:30
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Daniel Watts
      • 11:00
        Strangeness in Neutron Stars - Constraining the hyperon Nucleon Interaction 30m

        A comprehensive picture of the strong interaction can be obtained by extending our currently well understood nucleon-nucleon (NN) interaction to interactions involving strangeness degrees of freedom. The short lifetime of hyperons, however, prevents high-precision scattering experiments using typical procedures, and our efforts have been focused on complementary approaches utilising hypernuclear studies and final state interactions. The latter approach has only recently become feasible due to recent advancements in accelerator and detector technologies, which allow us to study exclusive reactions in hyperon photoproduction with high rates. Data collected using the CLAS detector housed in Hall-B of the Thomas Jefferson laboratory allow us to obtain a large set of observables, including cross section information [1] on the two-body (YN) and three-body (YNN) interaction and place stringent constraints on the underlying dynamics to address the “Hyperon Puzzle” [2]. In this talk I will provide an overview on the ongoing efforts currently underway that focus on extracting a large set of observables to constrain the interaction between hyperons and nucleons.
        [1] J. Rowley, et. al. Phys. Rev. Lett. 127, 272303 (2021)
        [2] I. Vidaña, Proc. R. Soc. A.474 01452 (2018)

        Speaker: Nicholas Zachariou (University of York)
      • 11:30
        Dibaryons – Molecule versus Hexaquark 30m

        Whereas exotic states observed in charm and beauty sectors appear as narrow resonances near particle thresholds constituting thus weakly bound systems of molecular character, such systems have to appear in the non-flavored sector as broad resonances, since the decay products themselves constitute very broad resonances. This complicates enormously their detection despite the fact that experiments in the unflavored sector are principally simpler.
        The - on the hadronic level - narrow resonance d(2380) with I(JP) = 0(3+) detected first in the pn→dπ0π0 reaction has been so far the only dibaryon resonance observed in all possible hadronic decay channels with evidence also in electromagnetic channels. Both quark model and LQCD calculations predict meanwhile such a hexaquark state decaying asymptotically via a ΔΔ configuration.
        In view of the recently discovered manifold threshold states in the flavored sectors also the longstanding discussion about further dibaryon resonances near the ΔN threshold appears in a new light. Partial-wave analyses based on a wealth of elastic scattering and single-pion production data provided unique results for isovector states with JP = 0-, 2+, 2-, 3- [1].
        Recent results from WASA-at-COSY for the isoscalar single-pion production show that its cross section does not grow above threshold as expected conventionally, but rather exhibits a Lorerentzian shape (solid line) suggesting isoscalar states with JP = 1+ and 1- near the NN
        threshold [2]. Interestingly, a sophisticated NN-interaction model with intermediate dibaryon formation can account for all these states leading to a quantitative description of the corresponding experimental NN-phase-shifts covering the range from 0 up to 1 GeV [3].

        [1] for a review see, e.g., H.Clement and T. Skorodko, Chin. Phys. C 45 (2021) 022001 and references therein
        [2] H. Clement et al., Phys. Rev. C 106 (2022) 065204
        [3] V. I. Kukulin et al., Chin. Phys. C 46 (2022) 114116

        Speaker: Heinz Clement (University of Tueb ingen)
      • 12:00
        The BGOOD experiment at ELSA - exotic structures in the light quark sector? 30m

        The discoveries of the pentaquark states and $XYZ$ mesons in the charmed quark sector initiated a new epoch in hadron physics, where the existence of exotic multi-quark states beyond the conventional three and two quark systems has been unambiguously realised. Similar structure may be evidenced in the light, $uds$ sector in meson photoproduction, where access to a low momentum exchange and forward meson production angles is crucial to study this phenomena. The BGOOD photoproduction experiment is uniquely designed to explore this kinematic region, being comprised of a central calorimeter complemented by a magnetic spectrometer in forward directions.

        Highlighted results indicate a peak-like structure in the $\gamma n \rightarrow K^0\Sigma^0$ cross section at a centre-of-mass energy of 2 GeV consistent with a meson-baryon interaction model which predicted the charmed $P_C$ states. The same $K^*\Sigma$ molecular nature of this proposed $N^*(2030)$ is also supported in a measurement of $\gamma p\rightarrow K^+\Lambda(1405)\rightarrow K^+\pi^0\Sigma^0$, where it is predicted to drive a triangle singularity mechanism. In the non-strange sector, coherent meson photoproduction off the deuteron enables access to proposed dibaryon states, including the recently discovered $d^*(2380)$. Data will be presented which support experimental claims of higher mass isoscalar and isovector dibaryons.

        Supported by DFG projects 388979758/405882627 and the European Union’s Horizon 2020 programme, grant 824093.

        Speaker: Thomas Jude (Bonn University)
    • 12:45 13:45
      Lunch at Collingwood College 1h
    • 14:00 15:30
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Feng-Kun Guo (Institute of Theoretical Physics, CAS)
      • 14:00
        Observation of multiple structures in the J/ψJ/ψ mass spectrum at CMS 30m

        A search for low-mass structures in the J/psiJ/psi mass spectrum produced by proton-proton collisions at sqrt(s) = 13 TeV is performed at the CMS experiment. The data sample corresponds to an integrated luminosity of 135 fb^-1 collected by the CMS at the CERN LHC. The previously observed X(6900) by LHCb is confirmed in this study, and a new structure at a lower mass is observed. Both structures have a significance well above 5 standard deviations. Evidence for a third structure around 7.2 GeV is found with a local significance of 4 sigma.

        Speaker: Prof. Zhen Hu (Tsinghua University)
      • 14:30
        Bound States and Resonances in Doubly Heavy Tetraquark States 30m

        I will give an update on our work studying antiheavy-antiheavy-light-light four-quark states using lattice QCD. We consider the three different tetraquark candidates $ \bar{b}\bar{b}ud $, $ \bar{b}\bar{b}us $ and $ \bar{b}\bar{c}ud $ and search for possible existing bound states or resonances in all channels. In addition to commonly used local interpolating operators we also employ scattering interpolating operators, which seem to be very important for an accurate extraction of possibly existing bound states as well as low-lying scattering states.
        Moreover, we investigate the effects of the finite lattice volume by performing a scattering analysis using Luscher's method. We extract infinite volume quantities like scattering lengths and phase shifts to obtain reliable statements about infinite volume binding energies.

        Speaker: Martin Pflaumer
      • 15:00
        Exclusive and Inclusive XYZ photoproduction 30m

        We will discuss model prediction for inclusive and exclusive XYZ production at JLab and at the EIC from the publications
        10.1103/PhysRevD.102.114010
        10.1103/PhysRevD.106.094009

        Speaker: Vincent Mathieu (University of Barcelona)
    • 15:30 16:00
      Tea/coffee break 30m
    • 16:00 17:30
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Mark Whitehead
      • 16:00
        High precision study of antineutron and hyperons interact with nuclei at a future super J/ψ factory 30m

        Physicists investigate the subatomic world by bombarding their subject of study with a hail of tiny subatomic “bullets”. From the way these “bullets” bounce off their target one can infer a wealth of detailed information about the target’s structure. Different kinds of subatomic “bullets” probe different aspects of the target, certain important aspects of the force holding atomic nuclei together can only be investigated by shooting particles called antineutrons and hyperons, which are believed to be very difficult to produce and control. However these usually rare particles can be produced in copious amounts and easily launched as a spinoff of a “super J/ψ factory”. This opens fresh research opportunities in particle and nuclear physics, as well as in astrophysics and medical physics, requiring no additional infrastructure.

        Speaker: Weimin Song (Jilin University)
      • 16:30
        Opportunities with J/psi and XYZP photo/lepto -production 30m

        I will discuss the recent results from JLab on J/\psi photo production and prospects and expectations for exotic charmonia at future photon-/lepton- machines

        Speaker: Adam Szczepaniak (Indiana U/JLab)
      • 17:00
        Exotic mesons in the D- and B-meson sectors 30m

        I will discuss the scalar and axial-vector charmed mesons, including the Ds0(2317), Ds1(2460) and their nonstrange partners. I will show that the hadronic molecular picture for these states is consistent with existing lattice results and LHCb measurements. Predictions on the decays of the Ds0 and Ds1 as well as properties of their bottom partners will be made.

        Speaker: Feng-Kun Guo (Institute of Theoretical Physics, CAS)
    • 09:30 10:30
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Muhammad Naeem Anwar (Swansea University)
      • 09:30
        New results and methods in heavy-baryon spectroscopy 30m

        In this talk, I will discuss new results in the charm/bottom baryon sectors, including discoveries of new excited open-flavor baryons with the LHCb experiment, analyses of their properties, and development of the analysis techniques.

        It is natural to classify baryonic excitation multiplets by quantum numbers of the light diquark in the ground configuration, which is $0^+$, referred to the good diquark, or $1^+$, referred to the good diquark. The new results for the bad-diquark multiplets come from studies of the $\Omega_c^{**0}$, and $\Xi_c^{**+}$ states in exclusive and prompt reactions. I will show new resonances in the "good"-diquark multiplets from the studied with the $\Xi_b^{**}$ excitations.

        Furthermore, I will introduce a new polarimeter vector field for multibody decays of a spin-half baryon. Using $\Lambda_c^+ \to p K^- \pi^+$ decays, I will demonstrate how it can facilitate polarization measurements of charm baryons and hadronic amplitude analyses.

        Speaker: Mikhail Mikhasenko (ORIGINS Excellence Cluster)
      • 10:00
        Charm baryons in lattice QCD at finite temperature 30m

        Singly and doubly spin $1/2$ charmed baryons are investigated at multiple temperatures using the anisotropic FASTSUM 'Generation 2L' lattice QCD ensembles. We discuss the temperature dependence of these baryons' spectrum in both parity channel with a focus on the confining phase. We use fit independent methods to determine when a traditional fiting procedure and mass determination is appropriate. To further qualify the behaviour of these states around the pseudocritical temperature, the parity doubling due to the restoration of chiral symmetry is examined.

        Speaker: Ryan Bignell (Swansea University)
    • 10:30 11:00
      Tea/coffee break 30m
    • 11:00 12:00
      Talks Room OC218 (IPPP)

      Room OC218

      IPPP

      Convener: Timothy Burns (Swansea University)
      • 11:00
        Physics of Multiquark States 30m

        Exotic spectroscopy is a hot topic since there are several discoveries or observations per year. In this review talk, the last main experimental discoveries will be presented and then the main theoretical interpretations will be discussed. Finally, some results of which I am also one of the authors will be presented and discussed.

        Speaker: Elena Santopinto (INFN Genoa)
      • 11:30
        On the long-standing quest for the tetra-neutron system: a recent observation of four-neutron correlations 30m

        The search for chargeless nuclei consisting only of neutrons has been a long-lasting challenge in nuclear physics, dating more than six decades back (see Ref. [1] for a recent review). The tetraneutron, in particular, has attracted a lot of experimental and theoretical attention. Most models agree that nuclear forces cannot bind four neutrons together without destroying many of the other successful predictions for light nuclei. The theoretical models, however, struggle to provide reliable and consistent predictions regarding the possibility of four neutrons forming a resonance system. On the other hand, no solid experimental information on possible correlations between four neutrons was available until recently as experiments suffer from low statistics and/or large background. The possibility of the tetraneutron forming a resonance state is still an open and fascinating question, which can now be probed theoretically with state-of-the-art ab-initio calculations and studied experimentally by employing new techniques in the upgraded, high-intensity, radioactive-ion beam facilities. In this talk, I will present a brief overview of this long-standing quest and discuss some recent, high-quality results from a novel experiment that was performed at the SAMURAI setup in RIKEN, Japan. This experiment probes the correlation energy between the four remaining neutrons after the quasi-elastic removal of alpha cluster from 8He projectiles and has provided for the first time a notably clean experimental signature. The results have been recently published in Nature [2]. The quest now continues with renewed interest as theoretical models attempt to reproduce the experimental result and new experiments aim to confirm and refine the measurement; hence, this talk will conclude with a brief discussion of these new perspectives.

        [1] Marqués, F. M. & Carbonell, J. The quest for light multineutron systems. Eur. Phys. J. A 57, 105 (2021).

        [2] Duer, M., Aumann, T., Gernhäuser, R., Panin, V., Paschalis, S., Rossi, D. M., et al. Observation of a correlated free four-neutron system. Nature 606, 678–682 (2022). https://doi.org/10.1038/s41586-022-04827-6

        Speaker: Stefanos Paschalis (University of York)
    • 12:00 12:30
      Discussion Room OC218 (IPPP)

      Room OC218

      IPPP

    • 12:30 13:30
      Lunch at IPPP 1h