SCIENCE BRINGS NATIONS TOGETHER
XIXth Workshop on High Energy Spin Physics dedicated to 90th anniversary of A.V. Efremov birth

Europe/Moscow
BLTP Conference Hall (JINR)

BLTP Conference Hall

JINR

Teryaev, Oleg (JINR)
Description

Joint Institute for Nuclear Research, Petersburg Nuclear Physics Institute of NRC "Kurchatov Institute", Institute of High Energy Physics of NRC "Kurchatov Institute" and National Research Nuclear University MEPhI are organizing the "XIXth Workshop on High Energy Spin Physics", which will take place in Dubna on September 4-8, 2023 in the hybrid format.


The First Workshop on High Energy Spin Physics chaired by Prof. L.I. Lapidus was held in Dubna in 1981. This was followed by the long series of biennial workshops in the odd years in between Spin Symposia, all of which were chaired by Anatoly Vasil’evich Efremov (AV, 1933–2021), a world famous expert and the leader of spin physics in Dubna. The last of these workshops was in Dubna on September 2-6, 2019 and the current workshop we would like to dedicate to AV 90th Anniversary.


We hope that it offers an opportunity to a large group of physicists and students from Russia, JINR Member States and other countries to remember AV and get acquainted with the most recent experimental and theoretical results in the spin physics.


About 110 scientists from different research centers are expected to participate.


The Workshop working languages will be English and Russian.

    • Plenary: Session I BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 1
        OPENING
      • 2
        Physics with SPD experiment at NICA
        Speaker: Kim, Victor (PNPI NRC KI, Gatchina & SPbPU, St. Petersburg)
      • 3
        Polarized Ion Sources for high-energy accelerators and colliders

        New polarization techniques for the development of high-intensity
        polarized H- and 3He++ ion sources will be reviewed.

        Speaker: Zelenski, Anatoli (MIPT)
    • 11:30
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session II BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 4
        Brief history of effective time-reversal in QCD

        The different QCD mechanisms of single spin asymmetries related to "naive" T-violation are discussed, with the special emphasis to contributions of Anatoli Vasil'evich Efremov.The relevant imaginary phases may correspond to hard (perturbative loops) and soft (T-odd fragmentation and fracture functions) regimes and their overlap (twist 3, effective T-odd distribution functions).
        The comparison with the polarization in heavy-ion collisions, where dissipation plays the prominent role, is discussed.

        Speaker: Teryaev, Oleg (JINR)
      • 5
        Studies of the nucleons structure using the SIDIS azimuthal angle asymmetries calculated with modified double ratios of numbers of the hadrons

        The COMPASS collaboration at CERN performs studies of the nucleons structure
        measuring the muon SIDIS cross sections differences (asymmetries) in numbers of
        the hadrons (h+ and h-) productions by muons from a target with two cells
        polarized oppositely to each other. These type of asymmetries, related to
        structure functions of the nucleons, is evaluated via the Double Ratios (DRs)
        of numbers of the hadrons in which the set-ups' luminosity and acceptance are
        cancelled. Modifications of the DRs (MDRs), suggested in this work, are aimed
        at minimization of possible false contributions to the muon SIDIS azimuthal
        asymmetries in hadron productions. The nucleons structure functions measured
        with the MDRs of numbers of the hadrons also commented on.

        Speaker: O.Kouznetsov, JINR
      • 6
        Quantum model of spinning black holes. Quantum model of electron.

        We propose the quantum model of spinning black holes with the integrable ring singularities. For the modified Kerr-Newman quantum metric, the complete regularization occurs at fixation of the maximal (cut-off) energy of gravitons $k_{UV}^{reg}=\hbar c/ R_S^{reg}$.
        The domains of existence of one, two and several events horizons $r_q$ are presented depending on parameters of the Kerr and Kerr-Newman modified metrics.
        We also propose the quantum model of extended electron with zero self-energy on the basis of the regular quantum Kerr-Newman metric.

        Speaker: Neznamov, Vasiliy (Federal Nuclear Center-All-Russian Research Institute of Experimental Physics (FSUE "RFNC-VNIIEF"))
    • 13:30
      Lunch BLTP Conference Hall

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      JINR

    • Plenary: Session III BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 7
        Prospects of Open-Charm Asymmetry Measurements at the SPD

        The Spin Physics Detector (SPD) at the Nuclotron based Ion Collider fAcility (NICA) is designed to study nucleon spin structure in the three dimensions. With capabilities to collide polarized protons (up to $\sqrt{s} = 27$ GeV) and deuterons (up to $\sqrt{s} = 13.5$ GeV) with peak design luminosity $10^{32} \rm cm^{-2} \ s^{-1}$ for protons (an order of magnitude less for deuterons), the experiment will allow measurements of cross-sections and spin asymmetries sensitive to the unpolarized and various polarized (helicity, Sivers, Boer-Mulders) gluon distributions inside the nucleons. Studies of heavy flavor mesons probe gluon distributions directly. The leading mechanism of charm meson pair production in proton-proton collisions is the gluon fusion. In the perturbative QCD framework, the cross-sections of the open-charm pair production are directly proportional to the product of gluon densities in the two colliding protons and the asymmetries are proportional to the ratio of the polarized gluon distribution to that of the unpolarized one. At the SPD, charmed mesons can be detected via their hadronic decay channels. While these measurements are challenging due to orders of magnitude larger hadronic background from other hard processes, we demonstrate the capacity to obtain meaningful asymmetry measurements that can make an impact on the present understanding of gluon Transverse Momentum Dependent (TMD) distributions inside protons.

        Speaker: Datta, Amaresh (JINR)
      • 8
        Simulation of the pp - scattering for the Beam-Beam Counter at SPD at NICA

        The results of the pp-scattering simulation at the total energy up to 27 GeV for the TDR version of the Beam-Beam Counter at SPD are presented. The simulation has been performed using the FTF, Pythia8 and Pluto generators under SPDRoot framework. The results have been compared with the differential cross section of the existing experimental data. The first estimations of the inclusive charged particles production asymmetries with Beam-Beam Counter have been obtained.

        Speaker: Terekhin, Arkadiy (JINR)
    • 16:00
      Break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session IV BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 9
        Resolution of SPD Detector in the Search of Dibarions with small energy excitations

        There are some indications on the existence of two barion states, that are systems with barion number 2(dibarion) and excitation energy lower than π0 mass. Such state according to barion number conservation after its production decays into proton and neutron and has a mass MX = Md + Eexc,where Md and Eexc are deuteron mass and excitation energy.
        The simulations of dd collisions is performed in assumption that in final state we have deuteron and dibarion with mass MX. Eexc is taken here as a fraction 1/4,1/2,3/4 of π0 mass equal to 0.135GeV , what corresponds to MX equal to 1.90935,1.9431,1.97685 in GeV respectively.
        Momenta of colliding deuterons were taken equal to 2.6 GeV/c what corresponds to the condi- tions of Baldin et al. experiment (Baldin A.M. et al.,Communication of the JINR, Dubna 1979,1- 12397). This study is performed under the conditions that the collider momentum is fixed at the 2.6 GeV/c;the transferred momentum of unbroken deuteron t = -0.5 (GeV/c)2,all the collisions take place at the center of the detector, and the dibarion has zero decay width.
        The analysis shows that the resolution of dibarion mass under these conditions is ≈ 2 − 3 MeV and opening the way to propose the study of this process at the commissioning stage of SPD detector.

        Speaker: Kurbatov, Vladimir (JINR)
      • 10
        Development of the SPD Beam-Beam Counter scintillation detector prototype with FERS 5200 front-end readout system.

        Abstract.
        The Spin Physics Detector is an experiment at NICA designed to study the spin structure of the proton and deuteron and the other spin-related phenomena using polarized beams.The collision energy is up to 27 GeV and the luminosity is up to 10^32 cm^−2 s^−1 in pp mode.
        Two scintillator-based detectors, Beam-Beam Counters (BBC), will be installed upstream and downstream the interaction point and will serve as a tool for beam diagnostics including local polarimetry.
        In this talk, we present the design of the BBC prototype based on the tiles with green WLS and SensL SiPM readout. FERS-5200 is used as the front-end readout system. The amplitude and timing resolutions for different tiles using radioactive source and cosmic rays are obtained.

        Speaker: Tishevsky, Aleksey (JINR)
      • 11
        Transition energy crossing of polarized proton beam at NICA

        At an experiment on acceleration of a polarized proton beam up to an energy at 13 GeV, the possibility of crossing the transition energy at 5.7 GeV by a jump is considered. The scheme of crossing by a rapid change of transition energy, assumes the longitudinal movement of the beam near the zero value of the slip coefficient. The jump itself is carried out in the absence of an RF field. The paper presents the influence of the above features on the dynamics of a polarized beam.

        Speaker: Mr Kolokolchikov, Sergey (INR RAS)
      • 12
        Fast simulation of nucleon momenta in deuteron for experiments at NICA SPD
        Speaker: Kostenko, Boris (JINR)
      • 13
        Active role of gluons in multiparticle production
        Speaker: Prof. Kokoulina, Elena (JINR)
    • Plenary: Session V BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 14
        Status and physics reach of the proton EDM experiment
        Speaker: Semertzidis, Y.
      • 15
        Search for axions at NICA

        Besides offering a solution to the strong CP problem in QCD, axions are one of the prime candidates for dark matter. One of manifestation of the galatic axion halo of light "invisible" axions is generation of the oscillating electric dipole moment of nucleons and light nuclei, and the NMR like rotation of spins in the axion induced psedomagnetic field. For spins in storage rings the pseudomagnetic fiels is 3 orders in magnitude stronger than that acting on spins at rest in terrestrial laboratories.
        The prospects for spins as resonant axion antennas at the NICA facility will be dicussed. The sensitivity to axions can be strongly enhanced complementing NICA rings with bypasses, which can also make possible a search for the deuteron electric dipole moment.

        Speaker: Mr Nikolaev, Nikolai (Landau Institute for Theoretical Physics)
      • 16
        Probing axion physics with spin

        The dynamics of spin in external electromagnetic, gravitational, and axion fields is analysed in the framework of the gravitoelectromagnetism approach in Einstein's general relativity theory. We consistently extend the recent studies from the flat Minkowski geometry to the curved spacetime manifolds, contributing to the discussion of the possible new role of a precessing spin as an ``axion antenna'' that can be used to detect the hypothetical axion-like dark matter. The formalism developed helps to clarify the subtle influence of the gravitational/inertial and axion fields in the ultra-sensitive high-energy spin experiments with charged particles and neutrons at accelerators and storage rings devoted to testing fundamental physical symmetries, including attempts to establish the nature of dark matter in the Universe.

        Speaker: Obukhov, Yuri (Nuclear Safety Institute (IBRAE), Russian Academy of Sciences)
      • 17
        Manifestation of dark matter axions in spin experiments

        Manifestation of dark matter axions in spin experiments
        A. J. Silenko
        BLTP JINR, Dubna, Russia

        The relativistic spin dynamics defined by the pseudoscalar field of dark matter axions is rigorously determined [1]. The relativistic Hamiltonian in the Foldy–Wouthuysen representation is derived. The biggest term describes the extraordinary (three orders of magnitude) enhancement of the axion wind effect in storage ring experiments as compared with experiments with immobile particles. This term defines the spin rotation about the longitudinal axis. The effects caused by the axion-induced oscillating EDM and the axion wind consist in the spin rotations about the different horizontal axes and phases of stimulating oscillations differ by π/2. The EDM effect for electrons is considered.
        [1] A. J. Silenko, Relativistic spin dynamics conditioned by dark matter axions, Eur. Phys. J. C 82, 856 (2022).

        Speaker: Prof. Silenko, Alexander (Joint Institute for Nuclear Research)
    • 11:50
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session VI BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 18
        Quantum electrodynamics with empty fermion vacuum without “sea” of states with negative energies and with opposite signs of mass summands in Dirac equations for particles and antiparticles. Possibilities of experimental verification.

        We examined versions of quantum electrodynamics (QED) with opposite signs of particle and antiparticle masses in Dirac equations and with empty fermion vacuum without states with negative energies. Application of S-matrix elements of QED versions under consideration leads to complete coincidence of the computational results of physical processes with the appropriate results in the standard QED. In new versions of the theory, there are no virtual processes with creation and annihilation of particle-antiparticle pairs. The processes with vacuum creation of real pairs in intense electromagnetic fields are not available either. The new content of the fermion vacuum (without Dirac sea) in the considered QED versions lead to new physical consequences, a part of which can be experimentally verified in the future either at facilities with exawatt-power optical lasers or in the experiments in collision of heavy ions with the total $Z\ge170\div175$ at the FAIR, HIAF, NICA acceleration centers under construction.

        Speaker: Neznamov, Vasiliy (Federal Nuclear Center-All-Russian Research Institute of Experimental Physics (FSUE "RFNC-VNIIEF"))
      • 19
        How to access QED at a supercritical Coulomb field with heavy ions

        It is known that in slow collisions of two bare nuclei with the total charge number larger than the critical value, Z_1+Z_2 > Z_c =173, the initially neutral vacuum can spontaneously decay into the charged vacuum and two positrons. Detection of the spontaneous emission of positrons would be the direct evidence of this fundamental phenomenon. However, the spontaneous positron emission is generally masked by the dynamical positron emission, which is induced by a rapidly changing electric field created by the colliding nuclei. For many years it was believed that the vacuum decay can be observed only in collisions with nuclear sticking, when the nuclei are bound for some period of time due to nuclear forces. But to date there is no evidence for the nuclear sticking in such heavy-ion collisions. In our recent papers [I.A. Maltsev et al., PRL, 2019; R.V. Popov et al., PRD, 2020; R.V. Popov et al., PRD, 2023], it was shown that the vacuum decay can be observed without any sticking of the nuclei. This can be done via measurements of the pair-production probabilities or the positron spectra for a given set of nuclear trajectories. The results of this study will be presented in the talk.

        The author acknowledges the support by RSCF grant No. 22-62-00004.

        Speaker: Prof. Shabaev, Vladimir (St. Petersburg State University/ NRC “Kurchatov Institute” - PNPI)
      • 20
        Analog of Weyl meson as analog of the dark photon

        The relationship between the Weyl-gauge vector and the electromagnetic potential vector is considered.

        Speaker: Mr Sedov, Sergey (Sarov State Physics Technical Institute, National Research Nuclear University MEPhI, Sarov Branch (SarPhTI), Sarov, Russia)
    • 13:30
      Lunch BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Parallel A: Session VI BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 21
        Bjorken sum rule with analytic coupling at low Q2 values

        The experimental data obtained for the polarized Bjorken sum rule for small values of Q2 are approximated by the predictions obtained in the framework of analytic QCD up to the 5th order perturbation theory, whose coupling constant does not contain the Landau pole. We found an excellent agreement between the experimental data and the predictions of analytic QCD, as well as a strong difference between these data and the results obtained in the framework of standard QCD.

        Speaker: Kotikov, Anatoly (JINR)
      • 22
        The CBK-relation and the $\beta$-expanded representations for the Bjorken polarized sum rule
        Speaker: Kataev, Andrei (Institute for Nuclear Research of RAS)
      • 23
        On the recent polemics on Structure Function g_1 at small x
        Speaker: ERMOLAEV, Boris (Ioffe Institute)
    • Parallel B: Session VIII Blokhintsev auditorium, 4th floor (BLTP JINR)

      Blokhintsev auditorium, 4th floor

      BLTP JINR

      • 24
        Vector Polarization of the Nuclotron Deuteron Beam at the Energies from 200 to 650 MeV/nucleon

        The deuteron beam vector polarization was obtained at the Nuclotron Internal Target Station using the proton-proton quasielastic scattering on the polyethylene target at the beam energies of 200, 500, 550, and 650 MeV/nucleon. The selection of useful events was performed using the time and amplitude information from scintillation counters. The asymmetry on hydrogen was obtained by the subtraction of the carbon background. The obtained values are compared with the data obtained using the deuteron-proton elastic scattering at the beam energy of 135 MeV/nucleon.

        Speaker: Volkov, Ivan (LHEP-JINR, Dubna, Moscow region, Russia)
      • 25
        PROJECT ON RESEARCH OF NUCLEAR DD-SYNTHESIS WITH POLARISATION OF INITIAL PARTICLES AT LOW ENERGIES (POLFUSION)

        The nuclear dd-fusion reaction can proceed by three possible channels: 3H + p (≈ 50%); 3He + n (≈ 50%); 4He + γ (≈ 10-7%).
        Interest in dd - fusion has been aroused by both fundamental research and astrophysics [1] and applied science, particularly in the field of fusion reactor development [2]. In 1967-1968 at the Kurchatov Institute, the idea of studying the nuclear dd - fusion reaction using polarised deuteron beams was proposed [3]. The development of this idea was continued in the PolFusion (Polarised Fusion) nuclear physics experiment.
        The PolFusion nuclear physics experiment aims to study the reaction of nuclear dd-synthesis with polarized source particles in the low energy region. The experiment is planned to measure the scattering asymmetries of dd-synthesis reaction products in the final state at different mutual orientation of the spins of colliding deuterons in the energy range 10-100 keV.
        The authors will present an overview of the status of the experiment.

        1. Bednyakov V.A. On the Origin of Chemical Elements, Physics of Elementary Particles and Atomic Nucleus, 2002, Vol. 33, No. 4, P. 915-690.
        2. Casey D. T. et al. Thermonuclear reactions probed at stellar-core conditions with laser-based inertial-confinement fusion, Nature Phys., 2017, Vol. 13. Is-sue 12, P. 1227-1231.
        3. Adjasevich B., Antonenko V. Measurements of the polarization correlation coefficients in reactions d (d, p) t and d (d, n) 3He, Preprint IEA-2704, Moscow, 1976.
        Speaker: Rozhdestvenskij, Anton
      • 26
        Relative contributions of cross-even and cross-odd parts to the spin dependent elastic hadron scattering amplitudes at high energies

        The form and energy dependence of the Odderon contribution to the hadron
        scattering amplitude is determined in the framework of the High Energy Generalize Structure (HEGS) model. Its contribution to the spin-flip scattering amplitude is analysed. The impact of different assumptions on the extraction of the parameters of the elastic scattering amplitude, especially on the size of the $\rho(t=0)$ and spin-correlation parameters, is examined.

        Speaker: Selyugin, Oleg (JINR)
    • 16:30
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Parallel A: Session IX BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 27
        T-odd angular coefficients for Drell-Yan process with Z neutral boson
        Speaker: Zhevlakov, Alexey (TSU)
      • 28
        Spin effects in the Sommerfeld-Gamow-Sakharov factor

        A new resummation of the Sommerfeld-Gamow-Sakharov factor ($S$-factor)
        of a composite system of two relativistic spin-1/2 particles of arbitrary masses interacting via a Coulomb-like chromodynamical potential is presented. The analysis is performed in the framework of a relativistic quasipotential approach based on the Hamiltonian formulation of the covariant quantum field theory in the relativistic configuration representation suggested by A.A. Logunov, A.N. Tavkhelidze and V.G. Kadyshevsky. The pseudoscalar, vector, and pseudovector systems are considered and the behaviour of the $S$-factor near the threshold and in the relativistic limit is investigated in detail. The spin dependence of the $S$-factors is discussed as well. It is argued that at the threshold the contribution of spins significantly reduces the Sommerfeld effect, while at ultrarelativistic velocities their role diminishes and the $S$-factor becomes basically the same as for the spinless systems. Relations to previously obtained $S$-factors for scalar particles of arbitrary masses and for relativistic spinor particles of equal masses are established.

        Speaker: Dr Solovtsova, Olga (JINR&GSTU)
      • 29
        Weyl group symmetry as an intrinsic color symmetry of QCD

        We present the basic non-perturbative structure of the space of classical dynamical solutions and corresponding one particle quantum states in SU(3) QCD. The Weyl group, as a non-trivial color subgroup of SU(3) , admits non-trivial singlet irreducible representations which lead to strict concepts of one particle quantum states for gluons and quarks. We show that a full space of dynamical gluon solutions is an infinite but countable space of solutions described by a finite set of integer numbers. It has been proved that the Weyl singlet structure of classical solutions provides the existence of a quantum stable non-degenerate vacuum which is known as a main precondition of the color confinement phenomenon. Some physical implications are considered.

        Speaker: PAK, DMITRIY (Physical-Technical Institute, Tashkent, Uzbekistan (currently I am in BLTP JINR under contract, until Oct.15 2023))
      • 30
        Polarization of hyperons produced by meson beams

        In this work, we consider the transverse polarization (PN) of Λ-hyperons and the corresponding antihyperons, which are produced in meson-proton and meson-nuclear interactions in inclusive reactions. The currently available experimental data are compared with calculations based on the chromomagnetic polarization of quark (CPQ) model. Calculations based on the CPQ model have also been performed for yet unexplored kinematic regions and various targets and can be verified in the SPASCHARM experiment at the NRC Kurchatov Institute - IHEP.

        Speaker: Dr Abramov, Victor (NRC Kurchatov Institute - IHEP)
      • 31
        Study of charmonia production in e+e- annihilation at center-of-mass energies above 3.81 GeV

        We present measurements of charmonia production cross sections in e+e- annihilation at center-of-mass energies from 3.81 GeV to 4.95 GeV at BESIII. The number of observed vector states in this energy region exceeds that of the predicted vector charmonium states. These features suggest that some of these supernumerary vector states are candidates of an exotic nature. To clarify the nature of these states and to distinguish between the different theoretical models, precise measurements of the production cross section and of the resonance parameters are essential.

        Speaker: Bakina, Olga (Joint Institute for Nuclear Research)
    • Parallel B: Session X Blokhintsev auditorium, 4th floor (BLTP JINR)

      Blokhintsev auditorium, 4th floor

      BLTP JINR

      • 32
        Bessel functions to fermion quantization
        Speaker: Shindin, Roman (JINR)
      • 33
        General Covariant Dirac Equation

        All attempts to include the original Dirac equation into the frameworks of the Principle of General Covariance and to obtain observable results have failed. It was shown that the Dirac field does not interact with the gravitational field (see for example:{S. Weinberg.} Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity, Wiley, New York, 1972. 685 p.;{Kenji Hayashi and Takeshi Shirafuji,}// { Phys.Rev.},{\bf D19}(1979),3524-3623.) But this in conflict is with experiment ({F.C. Witterborn and W.M. Fairbank,}// { Phys.Rev.Lett.},.{\bf 19}(1967),1049-1052.)

        Hence, it is very important to bring the concept of Spin into correspondence with the Principle of General Covariance. This problem has solution in a form of General Covariant Dirac equation. Particles that correspond to different states of a general covariant Dirac field can be called inelectrons.
        It is demonstrated that these particles are characterized by the Spin and the electrical charge in one case and the Spin and two charges (electrical and dual ) in another case. An operator of the electric charge anticommutes with an operator of dual charge. This provides existence of four internal states of the general covariant Dirac field. The transitions between these internal states are in current physics considered as electroweek interactions. We can conclude that to discover new physics it is enouph to put all invented by the observers notions into correspondence with the Principle of General Covariance.

        Speaker: Pestov, Ivanhoe (Bogoliubov Laboratory of Theorewtical Physics, JINR)
      • 34
        Transverse momentum distributions of hadrons in the Tsallis-3 statistics

        We have derived the exact and approximate hadron transverse momentum distributions for the Fermi-Dirac, Bose-Einstein and Maxwell-Boltzmann statistics of particles in the framework of the Tsallis statistics with escort probabilities (the Tsallis-3 statistics). We have revealed that the classical approximate phenomenological Tsallis distribution in the framework of the Tsallis-3 statistics corresponds to the zeroth term approximation and to the unphysical condition of zero entropy of the system in the whole range of state variables. The quantum approximate phenomenological Tsallis distribution does not correspond to the quantum transverse momentum distribution obtained in the Tsallis-3 statistics. We have revealed that the transverse momentum distributions in the zeroth term approximation and in the factorization approximation of the zeroth term approximation are the same in the Tsallis-3, Tsallis-2 and $q$-dual statistics. The exact Tsallis-3 classical distribution and the classical approximate phenomenological Tsallis distribution have been applied to describe the experimental spectra of the charged pions produced in the proton-proton collisions at high energies. We have found that the classical approximate phenomenological Tsallis distribution approximates the exact Tsallis-3 classical distribution unsatisfactory in the whole energy range.

        Speaker: Parvan, Alexandru (JINR and IFIN-HH)
      • 35
        Dual QCD thermodynamics at finite temperature and chemical potential

        A Dual QCD formulation for SU(3) color gauge has been developed in terms of dual gauge potentials taking into account the local as well as topological structure of the color gauge group into its dynamics. For the purpose of examining the non perturbative characteristics of QCD, the dynamical configuration of the resulting dual QCD vacuum and its flux tube configuration have been examined. The thermal behavior of the non-perturbative QCD vacuum has been investigated for exploring the dynamics of quark-hadron phase transition at finite chemical potential. Related thermodynamic quantities and equation of state (EoS) to characterize quark matter have also been discussed within the framework of dual QCD-based hadronic bag which guarantees the critical parameters and the associated critical points for quark-hadron phase transition. These thermodynamic quantities are expected to play important roles in understanding the order of quark-hadron phase transition and are likely to predict the features of a first-order quark-hadron phase transition for finite chemical potential. Moreover, we have investigated the bulk properties of quark matter by constructing the free energy change and the associated surface tension for quark-hadron phase transition. For consistency and compatibility
        check, we have also compared our results with state-of-the-art three-loop Hard Thermal Loop perturbative results and available lattice QCD results and in the process found reasonable agreements.

        Speaker: Dr Punetha, Garima (LSM Campus, Soban Singh Jeena University Almora Uttarakhand, India)
      • 36
        Spin Radiative Corrections to the Radiation Probability and Power in Classical and Quantum Electrodynamics
        Speaker: Lebedev, S.L.
      • 37
        Statistical potentials, AdS/CFT correspondence and (higher-)spin effects in heavy ion collisions

        Higher spin dynamics and multiparticle production in heavy ion collision processis, AdS/CFT correspondence, quarkonium potentials including finite temperature, finite density and entropic corrections considered.

        Speaker: Dr Makhaldiani, Nugzar (JINR)
      • 38
        Determination of location of the spin quantization axis of the vector meson-resonance $V$ via the cross sections of the reactions $A+B\Longrightarrow V+X\Longrightarrow 1+2+X$

        The general formula that represents location of the
        spin quantization axis of the meson-resonance $V$ in the inclusive reaction
        $A+B\Longrightarrow V+X\Longrightarrow 1+2+X$ is suggested.
        This formula determine the location of the spin
        quantization axis of the particles 1,2 and $V$
        via the cross sections of the subreactions $A+B\Longrightarrow V+X$ and $V\to 1+2$.

        For this aim is used the relativistic field theoretical approach, where
        the amplitude of the reaction $A+B\Longrightarrow 1+2+X$ is
        expressed as a product of the amplitudes of the subreactions
        $A+B\Longrightarrow V+X$ and $V\to 1+2$.
        It is shown that the special cases of the suggested formulation were used
        in the numerous high energy experiments in order to study of asymmetries
        and alignment of the particles 1 and 2 in
        reactions $A+B\Longrightarrow V+X\Longrightarrow 1+2+X$.

        Special attention is given to the partial wave decomposition of the
        relativistic amplitudes and cross section over the
        the orbital moments and spin of the
        intermediate $V$-meson and final particles 1 and 2. Equivalence of this
        partial wave decomposition and Jacob-Wick decomposition is considered.

        Speaker: Machavariani, Alexander (LHEP JINR)
    • Plenary: Session XI BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 39
        Spin-flipping within the Frequency Domain method of searching for particle electric dipole moment

        The present work is part of a research devoted to the development of a method to search for particle EDMs in an existing storage ring. This method involves a flipping of the beam's polarization axis as part of its energy fitting sub-procedure (to realize the "Quasi-Frozen Spin" condition). Generally, the preservation of the polarization requires that spin-flipping be done adiabatically; but ours is not the case. In this investigation we get a sense and a measure of the methodologically-required rapidity of spin-flipping.

        Speaker: Aksentev, Alexander (INR RAS)
      • 40
        NIСA facilities for the search for EDM light nuclei

        One of the possible arguments in favor of violation of CP invariance is the existence of nonzero electric dipole moments (EDM) of elementary particles. The idea of searching for the electric dipole moment of the proton and deuteron using polarized beams in the storage ring was originally based on the "frozen spin" method in 3D space and the creation of conditions under which the contribution of the magnetic dipole moment to the change in the direction of the spin would be less than the contribution of the supposedly existing electric dipole moment. The rejection of 3D and the transition to the concept of a “quasi-frozen” spin in 2D space, when the study of the EDM is supposed to be carried out by the Frequency Domain method, made it possible to consider accelerators existing in the world suitable for search the EDM. The article considers a slight modernization of the magneto-optical structure of the NICA collider and the Nuclotron by introducing a bypass with Wien-filters, which will allow accumulating the EDM signal over times of the order of 1000 seconds to a value that can be measured using a polarimeter with a sensitivity of 10^(-29) ÷10^(-30) e·cm. At the same time, modulating the spin precession with Wien filters will make NICA a broadband axion antenna. The new role of the bypass as an axion antenna, in addition to searching for the EDM of protons and deuterons, significantly increases the potential of the NICA complex as a unique platform for precision tests of fundamental symmetries in elementary particle physics.

        Speaker: Senichev, Yury (The Institute for Nuclear Research of the Russian Academy of Sciences)
      • 41
        Quasi-frozen spin concept at NICA for EDM search and its matrix analysis

        The basic idea to search for the Electric Dipole Moment (EDM) of charged particles in a storage ring was first proposed by the BNL. It assumes observation of the vertical buildup of beam polarization caused by the EDM in a so-called Frozen Spin (FS) lattice. The latter is composed of electrostatic deflectors to keep the momentum of the beam aligned with the direction of a polarization vector. However, this concept can be realized only for particles with positive magnetic anomaly (G), e.g., protons, and requires a lattice to be designed specifically for this purpose.

        To perform the EDM experiments with particles characterized with positive and negative G one can use Quasi-Frozen Spin (QFS) lattice. It can be realized on the basis of the existing synchrotron, e.g. NICA, with magnetic arcs and additional E+B elements at straight sections. So, that the net in-plane rotation of the spin-vector in the arcs is compensated in the E+B deflectors.

        The main features of the QFS lattice were calculated in the spinor formalism, such as a spin-tune and a direction of the invariant spin axis. As the radial field perturbations play a crucial role in the EDM measurement procedure, the difference of FS and QFS lattices was investigated in this regard. The data for estimation of the QFS resonance strength are also presented.

        Speaker: Melnikov, Aleksei (INR RAS)
      • 42
        Manifestation of the electric dipole moment in the decays of τ leptons produced in e+e− annihilation

        $\mbox{CP}$-odd asymmetries in the processes $e^+e^-\rightarrow \tau^+\pi^-\nu_\tau$, $e^+e^-\rightarrow \pi^+\tau^-\bar\nu_ \tau$, $e^+e^-\rightarrow \tau^+\rho^-\nu_\tau$, $e^+e^-\rightarrow \rho^+\tau^-\bar\nu_\tau $, $e^+e^-\to \tau^+e^-\nu_\tau{\bar\nu}_e\,,\,$ and $\,e^+e^-\to \tau^-e^+\nu_e{\bar\nu}_\tau$ are investigated with account for longitudinal polarization of electron (or positron) beam. These asymmetries are a manifestation of electric dipole form factor $F_3^\tau\equiv b$ in the $\gamma\tau^+\tau^-$ vertex. It is shown that to measure $\mbox{Im}\,b$ in the specified processes, polarization is not needed, while to measure $\mbox{Re}\,b$ it is required. The processes $e^+e^-\to \pi^+\pi^-\nu_\tau{\bar\nu}_\tau$, $e^+e^-\to e^+e^-\nu_\tau{\bar\nu}_\tau\nu_e\bar\nu_e$, $e^+e^-\to \mu^+\mu^-\nu_\tau{\bar\nu}_\tau\nu_\mu\bar\nu_\mu$, $e^+e^-\to \mu^+e^-\nu_\tau{\bar\nu}_\tau\nu_\mu\bar\nu_e$, and $e^+e^-\to \mu^-e^+\nu_\tau{\bar\nu}_\tau\nu_e\bar\nu_\mu$ are also discussed for the case of unpolarized electron and positron beams. In the latter cases it is possible to measure $\mbox{Re}\,b$ using the differential cross section over momenta of both registered particles.

        Speaker: Obraztsov, Ivan (Budker Institute of Nuclear Physics, 630090 Novosibirsk, Russia and Novosibirsk State University, 630090, Novosibirsk, Russia)
      • 43
        Scattering of unstable particles

        The scattering $R+T\to A+X$, where $A$ and $X$ are known sets of particles, is discussed. With known momenta of all participants, process is described by the scattering amplitude and cross section.

        Real colliding particles exist in the form of wave packets --- superpositions of monochromatic states with some spread $\Delta p$. In many cases, the amplitude change in the $\Delta p$ interval is negligible and the mentioned quantities describe the observed phenomena ({\it monochromatic plane wave approximation --- MPWA}).

        If the particle $R$ is unstable, then there are points in the space of final states where our process can be represented as a cascade two-stage process $(R\to A+B) \oplus (B+T\to X)$ with real intermediate particle $B$. At these points, the amplitude diverges {\it ($t$-channel singularity)} and the cross section does not exist --- MPWA is not applicable. For physical scattering, these divergences are smoothed out by the non-monochromaticity of the initial wave packet. It gives a finite probability of the process. The result depends not only on the average values of the momenta, but also on the properties of wave packet determined by the mechanism of its preparation.

        Similar phenomenon for $s$-channel is well known. For the scattering of slow neutrons on Uranium, cross section at $p\to 0$ diverges while probability of process is finite {\it ($s$-channel singularity)}.

        Speaker: Ginzburg, Ilya (Sobolev Inst. of Mathematics SB RAS)
    • 11:40
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session XII BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 44
        Extraction of information on transersity GPDs from $\pi^0$ and $\eta$ production on EIC of China

        The production of the $\pi^0$ and $\eta$ mesons are studied adopting handbag approach with GPDs in electron-proton scattering in Electron-ions collider in China (EicC) energy ranges. GK model is used to study these reactions.The predictions indicate that transversity dominance $\sigma_T\gg \sigma_L$ observed at low energies is valid up to EicC energy range. The transversity GPDs can be extracted from the cross sections of $\pi^0$ and $\eta$ process in electron-proton scattering.

        Speaker: Dr Xie, Ya-Ping (Institute of Modern Physics of Chinese Academy of Sciences)
      • 45
        GPDs and gravitational form factors of nucleons (quark and gluon contributions)

        Taking into account the recent parton distribution functions (PDFs), obtained in the recent time, the momentum transfer dependence of generalized parton distributions (GPDs), of nucleons is obtained in the limit $\xi \rightarrow 0$. The gravitational quark and gluon form factors of nucleons are calculated. The power dependence of the form factors is investigated.

        Speaker: Selyugin, Oleg (JINR)
      • 46
        Phenomenology of Vector-Meson Electroproduction on Spinless Targets

        The amplitude ratios of vector-meson production by heavy photons on spinless targets are shown to can be explicitly expressed in terms of the spin-density-matrix elements (SDMEs) only if the lepton beam is polarized. Making use of the amplitude ratios as free fit parameters instead of the SDMEs reduces the number of the real parameters in data description from 23 to 8. The exact formula for virtual-photon longitudinal-to-transverse cross-section ratio, $R$ in terms of the SDMEs is obtained for spinless targets and the new approximate formula for $R$ is proposed for nucleons.

        Speaker: Dr Manaenkov, Sergey (Petersburg Nuclear Physics Institute of National Research Centre "Kurchatov Institute")
    • 13:30
      Lunch BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session XIII BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 47
        Revisit the spin effects by thermal vorticity

        We revisit the spin polarization effects induced by thermal vorticity by calculating them directly from the spin-dependent distribution functions. For the spin-1/2 particles, we find that the spin polarization from the acceleration relative to the vorticity is suppressed compared to the result derived from the mean spin polarization vector. For the spin-1 particles, we give the spin alignment in terms of accelaration and vorticity. Although the spin alignment receives only second-order contribution from accelaration or vorticity, we find that some non-diagonal elements in spin density matrix can receive first order contribution which can be detected in heavy-ion collisions.

        Speaker: Prof. Gao, Jian-Hua (Shandong University, Weihai, China)
      • 48
        Axial current and hydro-gravity duality

        We recall the notion of duality between theory of equilibrium of media and gravity, in the version introduced at JINR. As an application a dissipation-free axial current is evaluated.

        Speaker: Zakharov, Valentin
      • 49
        Kinematical Vortical Effect and Gravitational chiral anomaly

        Based on a general analysis of conservation laws, the duality between gravity and hydrodynamics of a relativistic quantum fluid in a flat space is shown. This duality is expressed in the equality between hydrodynamic transport coefficients and quantum corrections in curved space-time. It is shown that the gravitational chiral anomaly is dual to the axial current in the vortical and accelerated fluid, which arises in the third order of the gradient expansion. The corresponding current is a new anomalous transport phenomenon, which can be called the Kinematical Vortical Effect (KVE). The general analysis has been explicitly verified for fields with spins 1/2 and 3/2. In the case of spin 3/2, an extended Rarita-Schwinger-Adler (RSA) field theory containing an additional field with spin 1/2 is considered. Using the method of conformal three-point functions, we found the gravitational chiral anomaly in the RSA theory for the fist time, and using the Zubarev density operator, we calculated the KVE transport coefficients. The results obtained confirm the duality and demonstrate the manifestation of the cubic spin dependence of the gravitational chiral anomaly, in hydrodynamics.

        Speaker: Prokhorov, George (Dubna, BLTP)
    • 16:30
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session XIV BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 50
        Influence of relativistic rotation on QCD properties

        In this report the influence of relativistic rotation on QCD properties will be considered. This study is carried out within lattice simulation of QCD which is performed in the reference frame which rotates with the system under investigation. In this case rotation is reduced to external gravitational field. Within the report I am going to discuss the following topics: the moment of inertia and inhomegenious phase transitions in quark-gluon plasma.

        Speaker: Braguta, Victor (JINR)
      • 51
        Inhomogeneous phases in rotating gluon plasma

        Using first-principle numerical lattice simulations of rotating quenched QCD, we demonstrate that the hot gluon plasma develops strong inhomogeneity with angular rotation. In certain conditions the existence of mixed confinement-deconfinement phase, when the periphery and central regions of rotating system are in the different phases, becomes possible. We study the spatial distribution of the Polyakov loop in the plane orthogonal to the rotational axis and find the conditions when the co-existing of two phases may be possible. We also will present preliminary results for the local critical temperature of rotating gluon plasma and its dependence on the angular velocity and radius of the system.

        Speaker: Dr Roenko, Artem (JINR, BLTP)
      • 52
        Correlations of kinematic quantities for pions and nucleons in PHSD model

        Time dependencies of the correlations between the velocities of pions and nucleons, as well as between their vorticities are obtained in frames of PHSD model for Au+Au collision at $\sqrt{s_{NN}} = 7.8$ GeV and fixed impact parameter 7.5 fm. The difference in results for these two correlations is explained. It is shown, that the Hubble-like expansion of the fireball gives a significant contribution to the difference of the results. However, for the times around the overlap of the colliding nuclei, the rotation of the surfaces $v_z = 0$ for the considered types of particles is important too.

        Speaker: Kolomoyets, Natalia (JINR)
      • 53
        Global polarization of $\Xi$ hyperons in Au+Au collisions in the STAR experiment

        The study of global polarization in heavy-ion collisions has revealed the presence of a vortical fluid with significant angular momentum and vorticity. This phenomenon can be observed through weak decays of particles such $\Lambda$ hyperons. Experimental data of $\Lambda$ global polarization from RHIC and LHC provided
        opportunity to get new insights into the collective behavior and hydrodynamic description of
        the system.

        Global polarization of multistrange hyperons, such as $\Xi$, can provide new information for hydrodynamic description of the system and its vorticity structure. In this talk, we will report results of $\Xi$ global polarization measurement for Au+Au collisions at $\sqrt{s_{NN}}$ = 19.6 and 27 GeV.

        Speaker: Alpatov, Egor (NRNU MEPhI)
    • Plenary: Session XV BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 54
        Z-boson pT-spectrum and lepton angular coefficients in the LO high-energy factorization with the real NLO corrections

        We study Z-boson production at the LHC energies within framework of the parton Reggeization approach of high-energy QCD [1,2]. Oppositely the previous calculation [3], based on LO approximation with the partonic process $Q+\bar Q \to Z$, we take into account NLO contribution from the partonic process $Q+R \to q+Z$, where $R$ is the Reggeized gluon and $Q$ is the Reggeized quark. The good agreement with experimental data as for Z-boson pT-spectra as for total cross section was found. The lepton angular coefficients in Z-boson events are studied by the same way, in the LO and in the NLO of the Parton Reggeization approach. The last one is performed in the high-energy factorization in the first time.

        [1] M. Nefedov and V. Saleev, Off-shell initial state effects, gauge invariance and angular distributions in the Drell-Yan process, Phys. Lett. B790 (2019), 551-556
        [2] M.A. Nefedov, V.A. Saleev and A.V. Shipilova, Dijet azimuthal decorrelations at the LHC in the parton Reggeization approach, Phys. Rev. D87 (2013) no.9, 094030
        [3] M.A. Nefedov and V.A. Saleev. High-Energy Factorization for Drell-Yan process in $pp$ and $p{\bar p}$ collisions with new Unintegrated PDFs, Phys. Rev. D102 (2020), 114018

        Speaker: Prof. Saleev, Vladimir (Samara National Research University)
      • 55
        Production of prompt polarized $J/\psi$ in the NRQCD and Generalized Parton Model

        The heavy quarkonium spin-physics is an important task of high energy physics which we study using charmonium production within the Nonrelativistic Quantum Chromodynamics (NRQCD) approach and Generalized Parton Model (GPM). We extracted a set of the NRQCD and GPM parameters by fitting data of charmonium production in proton--proton collisions measured by the PHENIX and NA3 collaborations, both at small and large rapidities. This set includes the NRQCD octet nonperturbative matrix elements and values of averaged squared transverse momentum in Gaussian $q_T$-distributions for initial quarks and gluons. The data of NA3 collaboration ($\sqrt{s}=19.4$ GeV) was used due to the energy closeness to the SPD NICA future experiment. Therefore, we could make predictions for unpolarised prompt $J/\psi$ production for $\sqrt{s}=27$ GeV. Also, we calculated polarization of the $J/\psi$ as one of the angular coefficients $\lambda$ in angular distribution of leptonic decay of $J/\psi$. Our results are compared with the PHENIX polarization data in a helicity frame. We found quite bad agreement for our polarization prediction unlike our prediction of unpolarized prompt $J/\psi$ production. However, we provide calculations of the polarized prompt $J/\psi$ for the SPD NICA experiment as well. Besides, we demonstrate validity of calculations in the GPM, as a version of Transverse-Momentum-Depended Parton Model, by comparison with the conventional Collinear Parton Model calculations.

        Speaker: Shilyaev, Kirill (Samara National Research University)
      • 56
        Exclusive reactions and Spin problems at SPD
        Speaker: Shimanskiy, Stepan (JINR)
      • 57
        The study of the nonleptonic decay \bm{$\Xi^0_c \to \Lambda^+_c \pi^-$} in the covariant confined quark model

        The nonleptonic decay $\Xi^0_c \to \Lambda^+_c \pi^-$ with $\Delta C=0$
        is systematically studied in the framework of the covariant confined quark
        model (CCQM) with account for both short and long distance effects.
        The short distance effects are induced by four topologies of external and
        internal weak $W^\pm$ exchange, while long distance effects are saturated
        by an inclusion of the so-called pole diagrams with an intermediate
        $\frac12^+$ and $\frac12^-$ baryon resonances. The contributions from
        $\frac12^+$~resonances are calculated straightforwardly by account
        for single charmed $\Sigma^0_c$ and $\Xi^{'\,+}_c$~baryons whereas the
        contributions from $\frac12^-$~resonances are calculated by using
        the well-known soft-pion theorem in the current-algebra approach.
        It allows to express the parity-violating S-wave amplitude in terms
        of parity-conserving matrix elements. It is found that the contribution
        of external and internal $W$-exchange diagrams is significantly suppressed
        by more than one order of magnitude in comparison with data.
        The pole diagrams play the major role to get consistency with experiment.

        Speaker: Ivanov, Mikhail (Joint Institute for Nuclear Research, Dubna, Russia)
    • 11:30
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session XVI BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 58
        Effective Potential and Conformal Symmetry in phi4

        We present the study of the multi-loop effective potential evolution in φ4-theory using the conformal symmetry. We demonstrate that the conformal symmetry can still be useful for the effective potential approach even at the presence of the mass parameter. To this goal, it is necessary to introduce the special treatment of the mass terms as sorts of interaction in an asymptotical expansion of the generating functional. The new-introduced vacuum Vz,x-operation is the main tool to the algebraic scheme of anomalous dimension calculations. It is shown that the vacuum Vz,x-operation transforms the given Green functions to the corresponding vacuum integrations which generate the effective potential.

        Speaker: Anikin, Igor V. (Bogoliubov Lab of Theor Phys JINR)
      • 59
        The bare and gravitationally dressed electron based on the Kerr-Newman black hole solution

        The initiated by Carter (1969) electron model, based on the Kerr-Newman (KN) black hole solution, was recently modified to form a heavy electron model dressed by gravity. Similar to QED, gravitating electron can be considered as a bare or dressed model, where the bare electron represents a massless relativistic ring string creating wave function of quantum theory, while the dressed electron forms a heavy electron- positron vacuum core, dressed by two Wilson loops subjected to gravitational frame-dragging. We show that this modified gravitating electron model is not full indeed, since the exact KN solution is radiation free and excitations of the white (electron) sheet do not correlate with excitations of the black (positron) sheet. Based on our previous works (2002-2004), we obtain the corresponding radiative KN solutions, including the both chiral and anti-chiral excitations and find that these solutions acquires an additional axial stringy system containing both incoming and outgoing electromagnetic radiation. Surprisingly, the external manifestations of the radiative KN solution are similar to behavior of astrophysical systems known as Blasers.

        Speaker: Prof. Burinskii, Alexander (NSI, Russian Academy of Sciences)
      • 60
        About toroidal leptons in space-time film theory

        Nonlinear field model of extremal space-time film is considered as unified field model [1-6]. Its space-localized solutions representing the elementary particles are investigated. In particular, we consider the field configuration having a form of the twisted lightlike soliton moving along the ring of the toroidal coordinate system. The exact solutions in the form of twisted light-like solitons moving in a straight line were found in [1]. As was shown in this work, the solitons of defined subclass of obtained solutions can be considered as photons. In the present work, we consider the approximate time-periodic solution in the quasi-cylindrical toroidal coordinate system with rotation. The inverse ring radius appears as a small parameter. We consider the exact solutions in the cylindrical coordinate system obtained in the work [1] as the initial approximation. We propose the initial approximation in the form of combination of the charged tubular shell and twisted lightlike soliton. Methods for determining the values of parameters of the initial approximation are considered. The correspondence of this class of solutions to real leptons is discussed.


        [1] Chernitskii A.A. Lightlike shell solitons of extremal space-time film. J. Phys. Commun., 2018, vol. 2, 105013.
        [2] Chernitskii A.A. About long-range interaction of spheroidal solitons in scalar feld nonlinear model. J. Phys.: Conf. Ser., 2017, vol. 938, iss. 1, 012029.
        [3] Chernitskii A.A. About toroidal soliton-particle of extremal space-time film. J. Phys.: Conf. Ser., 2020, vol. 1435, 012054.
        [4] Chernitskii A.A. Gravitation in theory of space-time film and galactic soliton. J. Phys.: Conf. Ser., 2021, vol. 2081, 012016.
        [5] Chernitskii A.A. About toroidal model of leptons in space-time film theory. JPS Conf. Proc., 2022, vol. 37, 020608.
        [6] Chernitskii A.A. On leptons in the theory of space-time films. Phys. Part. Nucl., 2023, vol. 54, pp. 685-692.

        Speaker: Dr Chernitskii, Alexander (St. Petersburg State Chemical and Pharmaceutical University)
    • 13:50
      Lunch BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session XVII BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 61
        Test of T-invariance in Double Polarized Scattering of $^3$He Nuclei on Deuterons

        The total cross section of scattering of vector polarized protons on tensor polarized deuterons provides a null-test signal of violation of invariance with respect to time reversal (T) while conserving spatial (P) parity [1]. Very similar is the double polarized $^3$He-d scattering considered here. The null-test signal cannot be simulated by the interaction in the initial and final states. We have calculated this observable for the $^3$He-d scattering process up to an unknown constant of the T-odd P-even NN interaction at the energies of the 3He nuclear beam in the range of 100-1000 MeV/nucleon based on the Glauber theory. The necessary spin amplitudes of p$^3$He and n$^3$He elastic scattering are calculated in the S-wave approximation for the wave function of the 3He nucleus taking into account the spin dependence of the pN elastic scattering amplitudes [2] with the contribution of T-invariance violating, but P-parity conserving interactions between nucleons. All types of mechanisms – single, double and triple scatterings, are included for both T-even and T-odd amplitudes. When calculating the amplitude of elastic 3He-d scattering, the previously developed formalism for elastic pd scattering [1,2] is used, taking into account the S and D waves of the deuteron wave function, while the spin-dependent pN scattering amplitudes are replaced by the corresponding spin-dependent amplitudes of the 3He-N scattering. The results of the calculation of the differential cross section, vector analyzing power Ay and spin correlations of the p3He scattering process are in good agreement with the available experimental data [3,4] in the forward hemisphere at energies of 150-1000 MeV. The dependence of the null-test signal on the 3He-d collision energy for different types of T-odd P-even NN interaction [5] is presented.
        The research was carried out at the expense of the grant of the Russian Science Foundation No. 23-22-00123, https://rscf.ru/project/23-22-00123 /.

        List of references

        1. Y.N. Uzikov, J. Haidenbauer, Phys. Rev. C 94, 035501 (2016).
        2. M.N. Platonova, V.I. Kukulin, Phys. Rev. C 81, 014004 (2010).
        3. D.K. Hasell et al. Phys. Rev. C 34, 236 (1986).
        4. E.J. Brash et al., Phys. Rev. C 52, 807 (1995).
        5. M. Simonius, Phys. Rev. Lett. 78, 4161 (1997).
        Speaker: Uzikov, Yury (Joint Institute for Nuclear Researches)
      • 62
        Search for new symmetries of hadron production in high energy collisions of protons and nuclei

        The status of $z$-scaling theory is reviewed. Basic physical principles such as self-similarity, locality, and fractality are discussed. The microscopic scenario of interactions of hadrons and nuclei at a constituent level in terms of dimensionless variables is studied.
        The structure of the colliding objects and fragmentation process in final state is described by fractal dimensions $\delta_1, \delta_2$ and $\epsilon_a, \epsilon_b$, respectively. The fractal dimensions and the model parameter $c$ interpreted as a specific heat of the produced medium are found from the scaling behavior of the dimensionless function $\psi(z)$, which depends on a self-similarity variable~$z$. The scaling variable $z$ is given in terms of the momentum fractions $x_1,x_2,y_a$, and $y_b$ that define a selected constituent sub-processes. The principle of maximal entropy is used to determine the momentum
        fractions taking into account the momentum conservation for the selected binary interaction. Applicability of the $z$-scaling approach for the description of polarization processes is illustrated. The equivalence of the minimal resolution principle with respect to the constituent sub-processes and the maximal fractal entropy $S_{\delta, \epsilon}$ is shown. The principle of maximum entropy together with the assumption of the fractal self-similarity of hadron structure and fragmentation processes leads to the preservation of a scale-dependent quantity - fractal cumulativity, characterizing hadron interactions at a constituent level. The fractal cumulativity is a property of a fractal-like object (or fractal-like process) with fractal dimension $D$ to form a "structural aggregate" with certain degree of local compactness which carries its momentum fraction $\zeta$.
        The conservation law for the fractal cumulativity is formulated.
        The crossing symmetry for the part of the entropy $S_{\delta, \epsilon}$ dependent only on the fractal dimensions in high resolution limit is discussed.

        Speaker: Prof. Tokarev, Mikhail (Joint Institute for Nuclear Research)
      • 63
        Spin effects in the neutrino gravitational scattering

        I study the neutrino scattering off a rotating black hole surrounded by a realistic magnetized accretion disk called a Polish doughnut. A neutrino is supposed to have a nonzero magnetic moment. I account for the contributions of the electroweak interaction of a neutrino with plasma of the disk and the interaction of the neutrino magnetic moment with magnetic fields in the disk on the neutrino spin precession. It leads to the conversion of active left neutrinos into sterile right particles. I study varoius configurations of magnetic fields in the disk. I discuss the idea of the neutrino tomography of magnetic field distributions in accretion disks near black holes.

        References

        M.Dvornikov, Neutrino spin oscillations in a magnetized Polish doughnut, arXiv:2307.10126

        Speaker: Dvornikov, Maxim (IZMIRAN)
    • 16:30
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Plenary: Session XVIII BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 64
        Evolutio n of Helicity Property of Relic Neutrinos
        Speaker: Peng, J.-C.
      • 65
        Composite effective field theory signal in case of searching for neutral triple gauge couplings with $ZZ \rightarrow \ell^+ \ell^- \nu \bar{\nu}$ production

        The Standard Model (SM) is a theory of elementary particles and their interactions that has a good agreement with experimental high-energy-physics data. However, this model should be extended to a more general theory due to the some theoretical problems of the SM and experimental facts beyond the SM. Effective field theory (EFT) is a way that allows one to search for any deviations from the SM by studying of anomalous couplings. It is based on the parameterization of the Lagrangian with the operators of higher dimensions accompanying by the Wilson coefficients. These operators represent contributions from physics of currently inaccessible energies and were constructed from the SM fields so that the gauge invariance is respected.

        In order to set more stringent limits on Wilson coefficients one should use methods of sensitivity increasing in addition to the luminosity growth. In this work the method of composite anomalous signal is studied. It is based on accounting for background processes anomalous contributions in addition to the signal process one. This technique is considered for $ZZ \rightarrow \nu \bar{\nu} \ell^+ \ell^-$ production at the LHC. This process is sensitive to the neutral triple gauge couplings (nTGCs), that are described by six dimension-eight operators. Anomalous contribution from the main background, $WZ$ production, is significant for some operators. This contribution was accounted in the limit-setting procedure in addition to the contribution from the signal process, and the derived limits on the Wilson coefficients are more stringent.

        Speaker: Semushin, Artur (National Research Nuclear University MEPhI and A. Alikhanyan National Science Laboratory)
      • 66
        Hyperon polarization in HICs and in hadronic reactions

        Heavy-ion collisions at center-of-mass nucleon collision energies 2.3--11.5 GeV are analyzed within the parton-hadron-string dynamics (PHSD) transport model. After the separation of spectator nucleons, the momentum distributions of particles constituting a fireball are fluidized and the energy and baryon number densities, temperature, and velocity fields are obtained in the Landau frame. It is shown that the velocity field has dominantly Hubble-like transversal and longitudinal expansion and a small vortical component on top of it. The vorticity is concentrated in the form of two oppositely rotating vortex rings moving in opposite directions along the nuclear collision axis. Global polarization of various hyperons species induced by the local vorticity of the medium is calculated. The polarization of all anti-hyperon species is found to be significantly larger than that of hyperons. The observable global polarization of Lambda hyperons is strongly influenced by the feed-down from weak and electromagnetic decays of heavier hyperons. Strong suppression is found to be due to electromagnetic decays of Sigma0 hyperons, which multiplicities obtained in the transport are poorly constrained both from the microscopic input of the Sigma0 production reactions and from the experimental data. The results of the calculation are compared with the available measurements of hyperon polarization.

        Speaker: Dr Kolomeitsev, Evgeni (BLTP, JINR, Dubna and Matej Bel University, Slovakia)
      • 67
        Performance of hyperon global polarization measurements with NICA/MPD

        The investigation of vortical structure of matter in heavy-ion collisions at the energies of a few GeV per nucleon is one of the goals of future MPD experiment at NICA. Within this work it is done by studying global polarization of $\Lambda$ hyperons within the framework of the MPD, in order to assess the performance of the detector with respect to these observables. The study is performed via Monte Carlo simulation of Bi+Bi collisions at $\sqrt{s_{\mathrm{NN}}} = 9.02$ GeV using PHSD model.

        Speaker: Nazarova, Elizaveta (LHEP, JINR)
    • Plenary: Session XIX BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 68
        Study of Spin Effects in SPASCHARM Experiment at U-70 facility

        SPASCHARM experiment started to study spin effects in hadron production. Data taking runs were carried out with polarized and nuclei targets. Curreny status of the experiment is presented.

        Speaker: Mochalov, Vasilii (NRC "Kurchatov Institute" - IHEP)
      • 69
        Feasibility of model-independent reconstruction of the amplitudes of the pp elastic scattering matrix at the SPASCHARM facility at U70

        Abstract. The concept design of the SPASCHARM experiment setup allows us to measure non-vanishing observables for direct reconstruction of the pp elastic scattering amplitudes at the energy of 16 GeV. We discuss experimental measurements required to extract all amplitudes for two types of polarized target and polarized proton beam.

        Realistic simulation was carried out to estimate accuracy and required time to measure analyzing power of the pp-scattering at the SPASCHARM experiment.

        Speaker: Marina, Nurusheva (National Research Nuclear University MEPhI (Moscow Engineering Physics Institute))
      • 70
        Measurement of quark and gluon jet fractions: methodology and preliminary results for the CMS

        The generator describes all the microparameters and macroparameters of quark(q) and gluon(g) jets - objects that we recognize in the data. The experimenter is provided with information that allows to determine “jet-by-jet” whether the jet has quark or gluon flavour with a given probability. In 2018, we were the first to notice that instead of flavour recognizing “jet-by-jet”, we can measure q/g-jet fractions in jet sample. The q/g-jet fractions contains important physical information about hard parton process and the process of hadronization. The report is devoted to the method of measuring the q/g-jet fractions at the hadron collider. The technique is illustrated by preliminary measurement results on CMS data.

        Speaker: Shulga, Sergey (JINR)
      • 71
        Decay Of High-Spin Isomers Into Odd-Odd Holmium Nuclei With A= 160,158,156.

        The report discusses experimental and theoretical problems of describing high-spin isomers in the beta decay of nuclei. The experiments were carried out within the framework of the Energy-Transmutation program at JINR accelerators and at the YASNAPP experimental complex, created on the basis of the JINR nuclear power Plant phasotron, in "on-line" and "off-line" modes.
        The experiments used large-volume HPGe detectors (efficiency 20% - 70%) and planar HPGe detectors (O30mm x 3mm).
        In the nuclei of 156,158,160, the lifetimes of 5 levels and half-lives of high-spin isomers were measured. :
        T1/2 9+ 160m2Ho= 3.2±0.2s , T1/29+ 158m2Ho= 21min , T1/29+ 156m2Ho=7.25±0.35min.

        The figure shows a fragment of the decay of a high-spin isomer in the 156No nucleus.

        Speaker: Yudin I.P
    • 11:30
      Coffee break BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Parallel A: Session XX BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 72
        Preservation of the proton polarization up to 13.5 GeV/c in the Nuclotron at JINR using partial snakes based on dynamic solenoids

        The scheme of the proton polarization preservation throughout Nuclotron momentum range employing 20% partial snakes based on a dynamic solenoid with a field ramp rate of ~1 T/s is presented. Orbit and the beam optical parameters are not subjected to change over protons acceleration with dynamic solenoids. External targets experiments and injections of polarized protons into the NICA collider at any available energy, including those higher than the transition energy, will become feasible. It will open a possibility to inject protons in the NICA collider directly at energies corresponding to a spin transparency mode at integer spin resonances without employing of full solenoid snakes.

        Speaker: Dr Filatov, Yury (MIPT)
      • 73
        Proton Polarimetry in energy range from keV to 255 GeV. 3He -absolute Polarimetry at 6 Mev

        Proton polarimetry at RHIC in energy range from 1 keV to 255 GeV will be reviewed
        Development of a new absolute polarimeter for 3He++ ion beam will also be presented.

        Speaker: Zelenski, Anatoli (MIPT)
      • 74
        Beam polarimetry in the NIСA collider using a proton cluster target.
        Speaker: Piskunov, Nikolay (JINR, Dubna)
    • Parallel B: Session XXI (Spintronics satellite Workshop) Blokhintsev auditorium, 4th floor (BLTP JINR)

      Blokhintsev auditorium, 4th floor

      BLTP JINR

      • 75
        Proposal for realizing Majorana fermions in strongly correlated nanowires

        We show that the 1𝐷 topological superconductivity can be placed in the context of phenomena associated with strongly correlated electron systems. Here we propose a system consisting of a one-dimensional chain of strongly correlated fermions placed on a superconducting (SC) substrate that exhibits a spin-singlet extended 𝑠-wave pairing. Strong electron correlation is shown to transform an extended 𝑠-wave SC into a topological SC that can host Majorana fermions. Neither a Rashba spin-orbit coupling nor an external magnetic field are required to produce such an effect.

        Speaker: Kochetov, Evgenii (JINR)
      • 76
        Flipping chiral edge states through nuclear spin S and spin modulating vector in topological insulators

        Non chiral spin texture gives rise to the topological Hall effects (THE). We analyze the topological property of one such spin texture, which was recently observed in van der Waals (vdW) magnet Fe3GeTe2. In this spin texture both the azimuthal and polar angle of the spin depend on the spatial coordinates. The Hamiltonian in strongly correlated regime with this spin texture for arbitrary large nuclear spin S is found. The large spin-S treatment is necessary as magnetic atoms of the vdW magnets can have spin S>1/2. It was found that on a honeycomb lattice for two band material the first Chern number depends on the spin S and azimuthal angle. For a fixed S as the spin modulating vector -- related to the azimuthal angle -- changes from 0 to π the sign of the Chern number changes multiple times. Physically, as the Chern number is related to the Hall conductivity, and the chiral edge states, sign change of Chern number will result in flipping of the former. We also argue that no matter how complex is the spin texture, the topological properties depends only on a single factor: the change in azimuthal angle between neighboring spins. It confers with the recent view that topological properties can occur with zero scalar spin chirality. We also discuss possible experimental ways to observe this effect.

        Speaker: Dr Kesharpu, Kaushal Kumar (BLTP, JINR)
      • 77
        Frustrated magnetism and quantum computing

        Frustration is a universal concept which describes a situation where several competing interactions are present, which takes place not only in physics but also biology. The compromise of such interactions may result in a completely exotic ground state. In frustrated magnets such competition can yield a loss of long-range magnetic order due to strong quantum fluctuations - a so-called quantum spin liquid state. It is fascinating that frustration can come from both the structure of the lattice, such as the ones containing trianguar motifs, as well as anisotropic interactions, e.g. Dzyaloshinskii-Moriya, Kitaev - both driven by spin-orbit coupling. The fractional excitations of spin liquids drew interest as a path towards topological quantum computation, which is stable towards small errors, plaguing standard quantum computing platforms. In this talk we review recent examples of spin liquid candidates and why they are hard to come by.

        Speaker: Maksimov, Pavel (Joint Institute for Nuclear Research)
    • 13:30
      Lunch BLTP Conference Hall

      BLTP Conference Hall

      JINR

    • Parallel A: Session XXII BLTP Conference Hall

      BLTP Conference Hall

      JINR

      • 78
        Photon-photon collisions with arbitrary polarization in ReneSANCe Monte Carlo generator

        We describe the implementation of processes of photon-photon collisions with arbitrary polarization in ReneSANCe Monte Carlo generator. Numerical results for a number of the Standard Model processes will be shown.

        Speaker: Sadykov, Renat (JINR)
      • 79
        Electroweak radiative corrections to polarized top quark pair production

        We investigate the effects of complete one-loop electroweak radiative corrections and higher-order radiative effects to the total cross section and analyze different types of asymmetries for polarized initial and final states for typical energies and degrees of polarization of the ILC and CLIC projects. Numerical results are obtained with the help of Monte Carlo tools: the ReneSANCe event generator and the MCSANC integrator.

        Speaker: Yermolchyk, Vitaly (JINR; INP BSU)
      • 80
        One-loop electroweak radiative corrections to polarized $e^+e^- \to Z Z$ process

        Polarization effects of initial and final states for the process of Z-pair production at future Higgs-fabriques are investigated at one-loop EW level. Some advanced theoretical techniques to deal with massive particles are developed and applied.

        Speaker: Dydyshka, Yahor (JINR)
      • 81
        SANC: process gamma + gamma \to Z + H at one-loop level including polarization effects

        The process gamma + gamma \to Z + H
        is described within the SANC system at the one-loop accuracy level.
        The corresponding covariant and helicity amplitudes are presented.

        Speaker: Rumyantsev, Leonid (DLNP JINR)
      • 82
        Electroweak corrections to dilepton production at LHC: the Drell-Yan, the photon fusion, and the inverse photon emission
        Speaker: Zykunov, Vladimir (JINR)
      • 83
        Double spin asymmetries in the elastic scattering of electrons on a polarized proton in the case of parallel spins.

        We have proposed methods for measuring of the Sachs form factors ratio based on the polarization transfer from the initial proton to the final electron or proton in the elastic $e \vec p \to \vec e p$ or $e \vec p \to e \vec p$ processes in the case of parallel spins.

        Speaker: Dr Galynskii, Mikhail (Joint Institute for Power and Nuclear Research -- Sosny, National Academy of Sciences of Belarus, 220109 Minsk, Belarus)
    • Parallel B: Session XXIII (Spintronics satellite Workshop) Blokhintsev auditorium, 4th floor (BLTP JINR)

      Blokhintsev auditorium, 4th floor

      BLTP JINR

      • 84
        Tunnel spin current in superferromagnets

        Advances in micro- and nano-technologies have led to the widespread use of spintronic magnetoresistive (MR) sensors for both recording and non-recording applications. Such ultramodern magnetoresistive sensors have high sensitivity of the detected ultra-weak fields, which meet the requirements of intelligent sensor applications in the fields of the Internet, mobile devices, space technology, aeronautics, magnetic flux leakage, domotics, environment, healthcare and medicine. Moreover, their adaptability and miniaturization, simple integration and cost-effectiveness make these sensors uniquely competitive in terms of spread applications and production.
        In this work, ensembles of superparamagnetic particles (SPM) imbedded in an insulator or semiconductor substrate are considered. At a sufficiently high concentration of SPMs these metamaterials show superferromagnetic properties and can be used as MR sensors [1]. We consider the electric current between the SPM particles and show that the resulting tunneling MR increases as the size of the SPM decreases.
        1. 7. V. N. Kondratyev and V. A.O sipov Superferromagnetic sensors. // Nanomanufacturing 2023, V. 3, P. 263. https://doi.org/10.3390/nanomanufacturing3030017

        Speaker: Kondratyev, Vladimir (BLTP JINR)
      • 85
        Simulation of spin effects with ultracold gases in optical traps

        Development of physics of ultracold atoms has opened unique possibility for realisation of R. Feynman’s idea: to use simple quantum systems with desiered properties (amenable quantitative description and modeling) to describe more complex systems and phenomena. Particularly, in solid state physics one can mention the modeling of matter phase-transition with the ultracold atom simulator (realization of the Bose-Hubbard model). Another intriguing perspective in this diretion is a possibility to control of dipolar many-body phase. As an example, we discusse the use of dipolar confinement-induced resonances of ultracold gasses in waveguides for modeling tunable magnetic moment (or dipole-dipole) interactions.

        Speaker: Melezhik, Vladimir (BLTP JINR Dubna)
      • 86
        Lattice models of quantum magnetism with strong spin- orbit interaction: ab initio cluster calculations
        Speaker: Yushankhai, Viktor (JINR, BLTP)
    • Parallel C: Spintronics and physics of nanostructures MEPHi

      MEPHi

      • 87
        Effect of neutron irradiation on the optical and electrical properties of the doped AlGaAs/GaAs quantum wells
        Speaker: Klochkov, Alexey
      • 88
        The electronic and optical properties of AA and AB diamanes, deposited on metal and dielectric substrates
        Speaker: Grekova, Anastasiya
      • 89
        Investigation of the influence of mechanical deformations on the dielectric band gap and optical characteristics of graphene on a molybdenum ditelluride substrate
        Speaker: Kuliamin, Pavel
      • 90
        All-nitrogen High Energy Density Materials and their electronic and energy characteristics
        Speaker: Merinov, Valeriy
      • 91
        Thermal stability of novel carbon material, hexatetracarbon
        Speaker: Bauetdinov, Yusupbek
      • 92
        Dependence of the critical current of HTS tapes in different magnetic field orientations

        Poster

        Speaker: Veselova, Svetlana