XXXVI International Workshop on High Energy Physics "Strong Interactions: Experiment, Theory, Phenomenology"

Europe/Moscow
Roman Riutin (IHEP), Vladimir Petrov (IHEP)
Описание

Theoretical Division

Logunov Institute for High Energy Physics (Protvino, Moscow region, Russia) of  National Research Centre "Kurchatov Institute" is organizing the XXXVI International Workshop on High Energy Physics “Strong Interactions: Experiment, Theory, Phenomenology”, July 23-25, 2024.

The purpose of this Workshop is to highlight and review the most pressing problems in the field of hadron physics associated with QCD (lattice QCD, (non) perturbative QCD, statistics and thermodynamics of strongly interacting matter, diffractive scattering) as well as relevant experimental data. To this end the workshop will consist of

invited talks only

and a 1-hour discussion session after each working day with a summary from the discussion leader will be arranged.


 Dear Colleagues,

We kindly ask you to submit the abstract of your talk (at least in a condensed form) via this web-page (or via e-mail, in case of problems).

This would help us to arrange the program and the corresponding discussions in advance.


Topics to be discussed

  • QCD (lattice, (non) perturbative, effective models)
  • Statistics and thermodynamics of strongly interacting matter
  • Diffractive scattering
  • Experimental data on hadron physics
  • Historical aspects of strong interactions theory

Wishes to speakers

  • As one can see from the program, our Workshop concerns various fields sometimes very different from each other, both conceptually and in technical terminology.
  • That is why we would like to avoid excessive diversification and to try to preserve to a certain extent the unity of the high energy physics community.
  • In this regard, we would like to ask all speakers, if possible, to kindly avoid, if possible, details that are understandable only to a narrow circle of deeply involved experts  and to make the presentation simpler and clearer (thus more interesting!)  to a wider circle of participants.
  • We also believe that it would be of great importance to give, at least in a concise way, the conceptual motivation of your subject.

   We are aware that this task can be rather difficult, so in no way the above wishes are mandatory and  every speaker is, certainly, free to deliver her/his talk according to  her/his own desire and convenience.


Wishes to discussion leaders

  • It is assumed that each session will end with a general discussion (near one hour).
  • The discussion is led by the discussion leader.
  • The first part is assumed to be devoted to additional questions which bear a conceptual character, which are collected by technical coordinators and then sent to the discussion leader. It is meant that during the talk time only technical short questions not bearing a conceptual character are admitted.  This is regulated by the chairperson.
  • In the second part the discussion leader is asked to give a brief summary of the session's reports and a brief description of the most important unresolved problems related to the topic of the session.
  • The allocation of time for discussion and summary is  left to the discretion of the discussion leader.
  • Additional wishes to discussion leaders:
    The hour of discussion is divided into three parts.
    1. Conceptual questions to speakers of the session(s) from the
    audience.
    2. A short summary from the discussion leader for each of the talks of
    the session(s).
    3. General summary of the state of affairs and prospects.
    Topic(topics) - at the choice of the discussion leader, but relevant to at least one talk of the session(s).
    The distribution of time among the above parts is at the choice of the presenter.

Structure of the workshop

  • Participation will be available both in person and online.
  • Speakers by invitation only.
  • Two sessions with 4-5 invited talks of 40 minutes duration and 5 minutes for
    questions (additional time is possible by request) and debates of a current character after each talk will be arranged every day.
  • In the evening one hour will be devoted to moderated open discussion of relevant general problems.
  • Poster sessions are envisaged for young participants (graduates and post graduates) as everyday last 40-min sessions.
  • Only registered participants can follow the sessions and take part in the discussions.

    The first step is to register in the indico system  https://indico.ihep.su/register/

    Next, the system will send a link to confirm the email.

    After that, you can log in to the indico system with the login you received and register for the conference.

  • Proceedings of the workshop will be published in Physics of Elementary Particles and Atomic Nuclei of the Joint Institute for Nuclear Research (JINR, Dubna) 

The session summaries are envisaged to be placed jointly in the arXiv (hep-ph).


IMPORTANT DATES

  • July 10, 2024 - end of abstract submission
  • July 15, 2024 - end of registration of speakers
  • July 23, 2023 - start of the Workshop

Participation

Participation with review talks is by invitation of the Organizing Committee.

In the case of a proactive request the decision is made by the Organizing Committee.                                 

The sessions will be online by appropriate software and also in person.

There is no registration fee.

Participants
  • Abhishek Rajak
  • Alexander Kisselev
  • Alexander Parkhomenko
  • Alexander Razumov
  • Alexander Shemyakov
  • Alexander Zaitsev
  • Alexei Martynenko
  • Alsu Bagdatova
  • Ana Carolina Rossi
  • Andrei Kataev
  • Andrej Arbuzov
  • Anton Bogomyagkov
  • Antony Varlamov
  • ARKADIP MUKHERJEE
  • Arvind Kumar
  • Ashok Aryal
  • Atsushi Nakamura
  • Boris Ermolaev
  • Daniel Salinas-Arizmendi
  • Dhananjay Singh
  • Dina Stoyanova
  • Dmitry Voskresensky
  • Eduard Boos
  • Eugene Levichev
  • Evgeni Kolomeitsev
  • Flor Elena López Sánchez
  • Gleb Fomenko
  • Heng-Tong Ding
  • Igor Bulyzhenkov
  • Kiran Sengal
  • Kozlovsky Evgeny
  • Maksim Nekrasov
  • Manfried Faber
  • Mikhail Ryskin
  • Mikhail Sergeenko
  • Oleg Selyugin
  • Oleg Teryaev
  • Olga Kodolova
  • Pavel Bakhtin
  • Petr Parfenov
  • Pradip Pangali
  • Rajat Verma
  • Ramkrishna Joshi
  • Roman Nikolaenko
  • Roman Rogalyov
  • Roman Ryutin
  • Rustem Zagitov
  • Sameen Aziz
  • Satyajit Puhan
  • Sergei Denisov
  • Sergey Slabospitsky
  • Serguei Sadovsky
  • Swapnil Singh
  • Vasily Mochalov
  • Victor Abramov
  • Victor Kim
  • Viktor Braguta
  • Vitalii Okorokov
  • Vitaly Bornyakov
  • Vladimir Goy
  • Vladimir Petrov
  • Vladimir Rykov
  • Vladimir Soloviev
  • Xianghui Cao
  • Yoxara Villamizar
  • Yuri Kharlov
  • Zakhar Khaidukov
  • Виктор Котляр
  • Семён Юрченко
  • У Цзинсюй
    • Morning Session 23/07/2024: Morning session 1

      Chairperson Anton Godizov (Logunov IHEP, NRC KI, Protvino)

      • 1
        Opening address
        Speaker: Vladimir Petrov (IHEP)
      • 2
        Current status of the Standard Model Effective Field Theory (SMEFT)

        Due to the lack of statistically reliable manifestations of effects beyond the Standard Model (SM) in experiments at the LHC, special attention is paid to the construction of an effective field theory in which deviations from the SM are parameterized by a certain set of gauge-invariant local operators with a dimension greater than four. The main features and modern status of this approach, called the Standard Model of Effective Field Theory (SMEFT), are discussed briefly.

        Speaker: Eduard Boos (SINP MSU)
      • 3
        COLLECTIVE EFFECTS IN STRONG INTERACTION PROCESSES: EXPERIMENTAL HIGHLIGHTS

        Collective effects are reviewed for collisions of various systems – from proton-proton to heavy ion – in wide energy range. Collectivity is one of the crucially important and most essential fea-tures in reactions with subatomic particles due to strong interaction. As consequence, a study of collective behavior in multiparticle production processes provides one of the most sensitive and promising probes for detailed investigation of basis features of strong interaction. Recent exper-imental results obtained at the Relativistic Heavy Ion Collider (RHIC) and the Large Hadron Collider (LHC) are considered. Hadron jets being one of the most famous collective effects in strong interaction are intensively study in various collisions [1]. In proton-proton interactions such studies devote to the better understanding of hadronization, precise determination of strong coupling constant, parameters of top quark and its production [2], verification of the predictions of Quantum Chromodynamics (QCD) in events with different topology, search for the physics beyond of Standard Model (SM), in particular, within Effective Field Theory (EFT) approach [3, 4] for top quark sector [2, 5–8]. Investigations of different nuclear collisions focus on exploration of the phase diagram of strongly interacting matter, particularly, on detailed study of properties of quark-gluon matter under extreme conditions considered presently as the strongly coupled quark-gluon plasma (sQGP). Results at RHIC [9] and LHC [10–12] energies provide important information about event shapes as well as transport and thermodynamics properties of the hot medium for various flavors. Measurements show clearly the collective behavior of heavy quarks in nucleus-nucleus interactions. Studies of jets in strongly interacting environment via correlations of different particles including heavy hadrons lead to new constraints for energy loss models, allow the search of the new physics signatures with heavy-ion collisions. First results have been obtained at the LHC for massive gauge bosons and antitop-top pair production in proton-nuclear and heavy ion collisions at multi-TeV energies. The surprising sQGP-like collectivity has been observed in collision systems smaller than even moderate nuclei, especially, at the LHC energies. Experimental results obtained for discrete symmetries of QCD at finite temperatures confirm indirectly the topologically non-trivial structure of QCD vacuum [13–17]. Such investigations are important for the decision of the problems of CP invariance of the strong interaction and baryon asymmetry of Universe. In the soft sector of the strong interaction one can expect some novel mechanisms for multiparticle production due to collectivity in very high energy nuclear collisions, in particular, increasing of coherent particle production. The investigation of Bose–Einstein condensation (BEC) will shed new light on the nature of superfluidity of strongly interacting matter which is the one of the fundamental properties of sQGP, on the possibility of laser-like regime for pion production at very high energies [18]. Studies of collective effects in strong interaction processes provide new important results for relativistic astrophysics, cosmology and cosmic ray physics. The recent measurements of femtoscopic correlations allow, in particular, the indirect estimations for parameters of hyperon–nucleon potentials. The new constrains for these potentials will make model predictions more reliably for compact astrophysical objects [19–23]. Studying the possible BEC effect on the pion yield at very high energies [24] can be considered one of perspective research directions for better understanding of the nature of the muon puzzle in ultra-high energy cosmic ray (UHECR) measurements [25–27]. Therefore collective effects in strong interaction processes studied on accelerator facilities are important for various fields of fundamental physics and investigation of the effects has large interdisciplinary value.

        References
        [1] V. A. Okorokov, Int. J. Mod. Phys. A 27, 1250037 (2012).
        [2] U. Husemann, Prog. Part. Nucl. Phys. 95, 48 (2017).
        [3] S. Willenbrock and C. Zhang, Annu. Rev. Nucl. Part. Sci. 64, 83 (2014).
        [4] E. E. Boos, Phys. Usp. 65, 653 (2022).
        [5] C. Zhang and S. Willenbrock, Phys. Rev. D 83, 034006 (2011).
        [6] I. Brivio et al., JHEP 2002, 131 (2020).
        [7] S. Bißmann et al., JHEP 2106, 010 (2021).
        [8] V. A. Okorokov, J. Phys.: Conf. Ser. 1690, 012006 (2020); Phys. At. Nucl. 86, 742 (2023).
        [9] V. A. Okorokov, Phys. At. Nucl. 72, 147 (2009); Proc. of the HEPFT2014. Eds. V. Petrov and R. Ryutin. World Scientific, Singapore (2015), p. 189; Eur. Phys. J. Web of Conf. 158, 01004 (2017).
        [10] ALICE Collaboration, arXiv: 2211.04384 [nucl-ex].
        [11] G. Aad et al. (ATLAS Collaboration), arXiv: 2404.06829 [hep-ex].
        [12] A. Hayrapetyan et al. (CMS Collaboration), arXiv: 2405.10785 [hep-ex].
        [13] D. E. Kharzeev, Annals Phys. 325, 205 (2010).
        [14] V. A. Okorokov, Phys. At. Nucl. 80, 1133 (2017).
        [15] J. Zhao and F. Wang, Prog. Part. Nucl. Phys. 107, 200 (2019).
        [16] W. Li and G. Wang, Annu. Rev. Nucl. Part. Sci. 70, 293 (2020).
        [17] D. E. Kharzeev and J. Liao, Nature Rev. Phys. 3, 55 (2021).
        [18] V. A. Okorokov, Adv. High Energy Phys. 2016, 5972709 (2016); Phys. At. Nucl. 82, 838 (2019).
        [19] M. Oertel et al., Rev. Mod. Phys. 89, 015007 (2017).
        [20] G. Baym et al., Rep. Prog. Phys. 81, 056902 (2018).
        [21] L. Baiotti, Prog. Part. Nucl. Phys. 109, 103714 (2019).
        [22] F. J. Llanes-Estrada and E. Lope-Oter, Prog. Part. Nucl. Phys. 109, 103715 (2019).
        [23] J. M. Lattimer, Annu. Rev. Nucl. Part. Sci. 71, 433 (2021).
        [24] V. A. Okorokov, Phys. At. Nucl. 87, 172 (2024).
        [25] S. Mollerach and E. Roulet, Prog. Part. Nucl. Phys. 98, 85 (2018).
        [26] L. A. Anchordoqui, Phys. Rep. 801, 1 (2019).
        [27] M. Kachelrieẞ and D. V. Semikoz, Prog. Part. Nucl. Phys. 109, 103710 (2019).

        Speaker: Prof. Vitalii Okorokov (National Research Nuclear University MEPhI (Moscow Engineering Physics Institute) )
      • 11:00
        Coffee break
      • 4
        Present state of the proton spin problem

        ///

        Speaker: Boris Ermolaev (Ioffe Institut)
      • 5
        Inclusive processes in the modified Quark-Gluon String Model.

        Inclusive processes at high energies are studied in a non-perturbative
        approach in QCD using a modified Quark-Gluon String Model. Theoretical and
        experimental aspects of diffraction dissociation are especially discussed.
        In the calculations of cross sections, the parameters of complex nonlinear
        trajectories of Pomeranchuk and Reggeons are used. Particular attention
        is paid to elastic and inelastic processes at LHC energies.

        Speaker: Dr Mikhail Sergeenko (Stepanov Institute of Physics NAS, Belarus)
    • Lunch
    • Afternoon session 23/07/2024: Afternoon session 2

      Chairperson Roman Rogalyov (Logunov IHEP, NRC KI, Protvino)

      • 6
        Doubly-Heavy Tetra- and Pentaquarks

        At present, production, properties, and decays of exotic multiquark hadrons --- tetra- and pentaquarks are intensively studied both experimentally and theoretically.
        Based on the $SU(3)_F$ flavor symmetry, there is a large number of such states which differ by their light quark content. Having already a 20-years' history, quite a few exotic hadrons are found experimentally despite predicted rich amount.
        Many interesting and unexpected results have been obtained and some of them related to doubly-heavy tetra- and pentaquark states are discussed in this talk.

        Speaker: Prof. Alexander Parkhomenko (Demidov State University, Yaroslavl)
      • 7
        Production of bound states of quarks and leptons in rare Higgs boson decays

        The rare decay process of the Higgs boson into a pair of J/Ψ and ϒ particles is studied within the perturbative Standard Model and the relativistic quark model. We study also the processes of single and paired production of lepton bound states (positronium, dimuonium, ditauonium) within the framework of the relativistic approach we are developing [1-5]. The relativistic corrections connected with the relative motion of heavy quarks and leptons are calculated in the production amplitude and the wave functions of the bound states. Numerical values of the decay widths of the Higgs boson are obtained, which can be used for comparison with future experimental data.

        A.P. Martynenko, F.A. Martynenko, Paired Double Heavy Baryons Production in Decays of the Higgs Boson //Symmetry. – 2023. – V. 15. –No.10. – P. 1944.
        A.P. Martynenko, F.A. Martynenko, Relativistic Corrections to the Higgs Boson Decay into a Pair of Vector Quarkonia //Symmetry. – 2023. – V. 15. –No. 2. – P. 448.
        R.N. Faustov, A.P. Martynenko, F.A. Martynenko, Relativistic corrections to paired production of charmonium and bottomonium in decays of the Higgs boson //Physical Review D. – 2023. – V. 107. –No.. 5. – P. 056002.
        R.N. Faustov, F.A. Martynenko, A.P. Martynenko, Higgs boson decay to the pair of S-and P-wave Bc mesons //The European Physical Journal A. – 2022. – V. 58. –No. 1. – P. 4.
        F. A. Martynenko, A. P. Martynenko and A. V. Eskin, Production of dileptonic bound states in the Higgs boson decay, http://arxiv.org/abs/2405.00829v1.

        Speaker: Dr Alexey Martynenko (Samara State University)
      • 16:00
        Coffee break
      • 8
        Gravitational formfactors, equivalence principle and shear viscosity

        Gravitational formfactors describe the (angular) momentum distribution in hadrons as well as their coupling to gravity. The equivalence principle may be extended to be valid separately for quarks and gluons. The small violation of such an extension may be related to the analog of shear viscosity contribution and be a counterpart of its smallness.

        Speaker: Oleg Teryaev (JINR)
      • 9
        Fluctons

        ///

        Speaker: Семён Юрченко (Санкт-Петербургский государственный университет)
      • 10
        Discussion 1

        Discussion leader TBA

    • Welcome drink
    • Morning session 24/07/2024: Morning session 3

      Chairperson Ilya Kudrov( Logunov IHEP, NRC KI, Protvino)

      • 11
        Some aspects of QC2 D & QCD phase diagram
        Speaker: Roman Zhokhov (IHEP)
      • 12
        Lattice study of rotating QCD properties

        In this report the influence of relativistic rotation on QCD
        properties will be considered. I am going to review the results that
        were obtained within lattice simulation of QCD. It has become
        commonplace to perform such studies in the reference frame rotating
        with the system under investigation. In this case there appears the
        gravitational field and the problem is reduced to study of QCD in this
        external gravitational field. Within the report the following topics
        will be reviewed. The influence of relativistic rotation on the QCD
        critical temperatures. Equation of state of rotating QCD and the
        moment of inertia of quark-gluon plasma. Inhomogeneous phase
        transitions in rotating quark-gluon plasma.

        Speaker: Prof. Viktor Braguta (JINR)
      • 11:00
        Coffee break
      • 13
        Pion degrees of freedom in nuclear matter, from 1971 till tomorrow

        After a historical introduction I will review progress in description of the pion degrees of freedom in equilibrium and nonequilibrium nuclear matter. Effects of the softening of the pion mode and pion condensation will be considered. Applications to such nuclear systems as atomic nuclei, neutron stars, heavy-ion collisions, and hypothetical nuclear systems will be discussed.

        References

        D.N. Voskresensky,``Pion Softening and Pion Condensation,''
        Phys. Atom. Nucl. 83 (2020) no.2, 188-202

        D.N. Voskresensky, ``Many particle effects in nucleus nucleus collisions,''
        Nucl. Phys. A 555 (1993), 293-328

        D.N. Voskresensky,``S-wave pion condensation in symmetric nuclear matter,''
        Phys. Rev. D 105 (2022) no.11, 116007

        D.N. Voskresensky, ``Pion-sigma meson vortices in rotating systems,''
        Phys. Rev. D 109 (2024) no.3, 034030

        D.N. Voskresensky, `` Pion degrees of freedom in nuclear matter, from 1971 till tomorrow".

        Speaker: Prof. Dmitry Voskresensky (LTF, JINR, Dubna)
      • 14
        What do we know about the confinement mechanism?

        I will compare the main confinement mechanisms in QCD, confinement by magnetic monopoles and by quantised magnetic flux tubes, vortices. Then, I will concentrate on problems with the detection of vortices. A further interesting question concerns the relation to the spontaneous breaking of chiral symmetry.

        Speaker: Manfried Faber (Atominstitut, Technische Universität Wien)
    • Lunch
    • Afternoon session 24/07/2024: Afternoon session 4

      Chairperson Aleksander Kisselev (Logunov IHEP, NRC KI, Protvino)

      • 15
        On the fine structure of the massless PT QCD series representations

        ...

        Speaker: Andrei Kataev (INR RAS)
      • 16
        Physics with flows and correlations at MPD, NICA

        The Multi-Purpose Detector (MPD) is the main experiment at the Nuclotron-base Ion Collider fAcility (NICA) focusing on heavy ion physics. It covers the energy range sNN−−−−√=4−11 GeV in collider mode and sNN−−−−√=2.4−3.5 GeV in fixed target mode, allowing us to study the high baryon chemical potential region of the QCD phase diagram where the first-order phase transition and the onset of the critical endpoint are predicted. The commissioning of the MPD and the first xenon beam data are expected in 2025. The physics program of the MPD includes the study of hadron spectra and hypernucleus production, collective flow, correlations and fluctuations, hyperon global polarization, electromagnetic probes, and open charm production. In this talk, the general status of the project as well as the results of the feasibility studies will be presented.

        Speaker: Petr Parfenov (JINR)
      • 16:00
        Coffee break
      • 17
        Perspective of a Z factory

        ...

        Speaker: Eugene Levichev (Budker INP)
      • 18
        Physics at a Z factory

        The most valuable task for high-energy physics at future colliders is the study of the Standard Model features in detail. That is required to resolve crucial problems of this model including the origin of the spontaneous symmetry breaking, the metastability of the Higgs boson vacuum, the symmetry and mass hierarchy of three fermion generations, etc. High statistics and advanced experimental accuracy at future Z factories can provide a substantially new level of the SM verification [1]. The physical program of such factories extends the studies performed at LEP because of higher statistics, modern detectors and advanced analysis techniques. All that challenges theory to provide adequately accurate SM predictions. Those challenges and some recent developments are discussed. ReneSANCe [1] Monte Carlo event generator and MCSANC [3] integrator presented. They are developed for high-precision studies of electroweak physics at future electron-positron colliders.

        [1] A. Blondel, J. Gluza, S. Jadach et al., CERN Yellow Reports: Monographs 3/2019; arXiv:1809.01830 [hep-ph].
        [2] R. Sadykov, V. Yermolchyk, Comput. Phys. Commun. 256 (2020), 107445.
        [3] S.G. Bondarenko, A.A. Sapronov, Comput. Phys. Commun. 184 (2013), 2343-2350.

        Speaker: Andrej Arbuzov (BLTP JINR)
      • 19
        POSTER SESSION (to discuss during the conference)

        Posters will be discussed during all the conference and this session. Also you will find printed version at the conference site.

      • 20
        A new string hadronization model

        In this report a new Model of the hadronization process is presented. It is based on the mechanism of fragmentation of relativistic Nambu-Goto strings with massive quarks at the end-points. To steer the fragmentation process, the area decay law is used.

        Modern string-based hadronization models (like in PYTHIA or EPOS LHC) operate with initially point-like strings, which significantly constraints the possibility to consider new mechanisms that take part in hadronic interactions at high energies.

        The new Model, called ATROPOS, uses, however, the so-called generalized initial conditions that define the string at the moment of creation. This also allows (for the first time ever!) to implement the total angular momentum conservation during hadronization.

        The usage of the modified Nambu-Goto action that considers the mass of heavy quarks at the string end-points allows to derive the fragmentation of heavy c- and b-quarks from the first principles of the theory and does not require any approximations or phenomenology.

        Along with Model description, first results of the simulation of hadronization in ee->qqbar events are presented.

        Speaker: Roman Nikolaenko (MEPhI)
      • 21
        Polarization and kinematic properties of the fragmentation functions q→ W+q′ and q→Z+q

        We consider the processes q\to W{+}\,q' and q\to Z{+}\,q and derive the respective
        fragmentation functions as functions of two kinematic variables: the longitudinal
        momentum fraction z and transverse momentum p_T of the produced bosons with
        respect to the parent quark. We take into account kinematic (phase space)
        restrictions connected with nonzero masses of the gauge bosons and with limited
        initial energy. We separately consider three different polarization states of
        the bosons.

        Speaker: Alsu Bagdatova
      • 22
        Informational nature of nonlocal self-organizations and fundamental forces

        The field distribution of mass and charge according to Shannon's law of information transfer allows us to reinterpret the phenomenon of long-range interaction in nonlocal self-organization of continuous densities of matter (doi.org/10.3390/particles6010007 ; doi.org/10.1080/14685248.2021.1953698). Correlations of tensor stresses in continuous material space are instantaneous, as is the reduction of the wave function for macro-quantum entanglement after the appearance of dissipation. The implications of the rejection of Einstein's and Maxwell's theories by the dual model of particle and its fields are discussed. For QCD, the referents of information theory and the consistent transition to the monistic unity of field matter without the void can also be expected.

        Speaker: Dr Igor Bulyzhenkov (RUDN University)
      • 23
        Exploring the Enigmatic Chiral Phase Transition of QCD at Finite Temperature

        Introduction
        Landau Functional of QCD
        Anomalous Massless QCD with Axial Anomaly
        Effects of Light Quark Mass
        Effects of Finite Chemical Potential
        Conclusion

        Speaker: Mr Jingxu Wu ( Moscow State University)
      • 24
        Discussion 2

        Discussion leaders
        Oleg Teryaev (JINR, Dubna) &
        Vitaly Bornyakov (Logunov IHEP, NRC KI, Protvino)

        Speakers: Oleg Teryaev (JINR), Vitaly Bornyakov (IHEP, Protvino)
    • Fourchette
    • Morning session 25/07/2024: Morning session 5

      Chairperson Roman Ryutin (Logunov IHEP, NRC KI, Protvino)

      • 25
        Pomeron in QCD

        Various perturbative and nonperturbative approaches to Pomeron in QCD are briefly discussed.

        Speaker: Victor Kim (NRC KI - PNPI, Gatchina)
      • 26
        Current Status of the Odderon

        Odderon is the C-odd amplitude which does not die out (or die very slowly) with energy. We consider the constrains on the Odderon properties and the
        perturbative QCD odderon given at the lowest $\alpha_s$ order by the three gluon exchange. Then we discuss the experimental indications for the odderon
        contribution to high energy proton-proton elastic scattering and some other processes in which the odderon may reveal itself.

        References

        ATLAS Collaboration, G. Aad et al., Eur. Phys. J. C 83, 441 (2023).

        Odderon contribution in light of the LHC low-tt data ,
        E.G.S. Luna, M.G. Ryskin, V.A. Khoze, e-Print:2405.09385 [hep-ph]

        Speaker: Dr Mikhail Ryskin (Petersburg Nuclear Physics Institute)
      • 11:00
        Coffee break
      • 27
        Oscillations in elastic hadron scattering

        The possible oscillations phenomena in the elastic hadron scattering at high energies are discussed. The analysis of experimental data carried out with some potentials has allowed to receive the parameters of potential and to describe being available oscillations in the differential cross sections. An analysis of dσ/dt of LHC data, carried out without model assumptions, showed the existence of a new effect in the behavior of the hadron scattering amplitude at small momentum transfer at high confidence level.

        1. O.V. Selyugin, Ukr.J. of Physics, v.41, (1996), 296.
        2. p. Gauron, B. Nicolescu, O.V. Selyugin, Phys. Lett. B 390 (1997) 405.
        3. O.V. Selyugin, Phys. Lett., B 797 134870 (2019).
        Speaker: Oleg Selyugin (JINR)
      • 28
        Some new ideas in nonperturbative QCD

        ///

        Speaker: Mikhail S. Lukashov (NRC "Kurchatov Institute")
    • Lunch
    • Afternoon session 25/07/2024: Afternoon session 6

      Chairperson Roman Zhokhov (IZMIRAN, Troitsk)

      • 29
        QCD physics with ALICE, ATLAS and CMS experiments

        The soft and hard QCD processes are analyzed by ALICE, ATLAS and CMS experiments using samples of proton-proton and AA collisions collected by the LHC at different energies. Measurements of jet production rates, jet properties, particle multiplicity, particle momentum spectra and correlations are presented.
        The results are compared to predictions of theoretical models at leading- and next-to-leading orders of QCD. The data in combination with HERA and CMS and
        ATLAS results are used to measure the strong coupling constant and for PDF constraints.

        Speaker: Dr Olga Kodolova
      • 30
        Electromagnetic probes of quark-gluon matter

        ...

        Speaker: Yuri Kharlov (IHEP)
      • 16:00
        Coffee break
      • 31
        Problems of confinement in QCD

        ///

        Speaker: Zakhar Khaidukov (National Research Centre "Kurchatov Institute",MIPT)
      • 32
        Evolution of concepts and methods in physics of strong interactions

        ...

        Speaker: Mr Vladimir Petrov (IHEP)
      • 33
        Discussion 3

        Discussion leader:
        V. A. Petrov (Logunov IHEP, NRC KI, Protvino)

        Speaker: Dr Vladimir Petrov (IHEP)
      • 34
        Closing address
        Speaker: Vladimir Petrov (IHEP)
    • Farewell drink