QCD@Work - International Workshop on QCD - Theory and Experiment

Europe/Rome
Auditorium (Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy))

Auditorium

Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

viale Gallipoli 28
Participants
  • Aaron Poole
  • Abhisek Saha
  • Alberto Calivà
  • Alessandra Pastore
  • Alessandro Papa
  • Alessandro Tatullo
  • Andrea Guiggiani
  • Andrzej Sandacz
  • Ankush Sharma
  • Annalisa Mastroserio
  • Anselm Vossen
  • Aparna Sankar
  • Arianna Grisel Torres Ramos
  • Arunima Bhattacharya
  • Baidyanath Sahoo
  • Birten Barsbay
  • Brijesh Srivastava
  • Carlo Branchina
  • Chris Hays
  • Claudio Coriano'
  • Dario Melle
  • Dimosthenis Theofilopoulos
  • Dmitri Melikhov
  • Domenico Elia
  • Donato Maria Creanza
  • Efrain J. Ferrer
  • Elena Santopinto
  • Emanuele Roberto Nocera
  • Eugenio Megias
  • Eugenio Nappi
  • Floriana Giannuzzi
  • Francesca Caloro
  • Francesco Bigazzi
  • Francesco Debernardis
  • Francesco Loparco
  • Francesco Saverio Cafagna
  • Fulvia De Fazio
  • Gabriele Chiodini
  • Geraint Evans
  • Giacomo Graziani
  • Gilberto Tetlalmatzi-Xolocotzi
  • Giorgio Comitini
  • Giovanni Antonio Chirilli
  • Giovanni Ridolfi
  • Giulio Mezzadri
  • Giuseppe Eugenio Bruno
  • Hagop Sazdjian
  • Ignasi Rosell
  • Javier Llorente Merino
  • Karl Landsteiner
  • Lorenzo Maio
  • Luca De Paolis
  • Luigi Cappiello
  • Luigi Delle Rose
  • Manuel Naviglio
  • Marco Bochicchio
  • Marco Giacalone
  • Marco Guzzi
  • Marco Ruggieri
  • Marco Scodeggio
  • Maria Paola Lombardo
  • Mariaelena Boglione
  • Mario Cretì
  • Mark Alford
  • Martin Novoa-Brunet
  • Massimiliano Grazzini
  • Massimo Taronna
  • Matteo Maria Maglio
  • Michele Corvino
  • Nicola Losacco
  • Paolo Gensini
  • Paul Frampton
  • Pietro Colangelo
  • Pooja -
  • QUN WANG
  • Riccardo Tommasi
  • Ritu Garg
  • Rosa Anna Fini
  • Salvatore My
  • Sara Taheri Monfared
  • Savvas Pitsinigkos
  • Sergio Leal Gómez
  • Shyam Kumar
  • Silvano Simula
  • Spyridon Margetis
  • Stefano Lionetti
  • Stefano Nicotri
  • Vincenzo Branchina
  • Vivian de la Incera
  • Wolfgang Lucha
  • Ynyr Harris
  • Zebin Qiu
  • Ümit Sözbilir
    • 08:45 09:15
      Registration Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 09:15 09:30
      Welcome Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 09:30 10:50
      Session 1 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Giuseppe Eugenio Bruno (Istituto Nazionale di Fisica Nucleare)
      • 09:30
        Neutron star mergers as materials science 30m
        Speaker: Mark Alford (Washington University in St. Louis)
      • 10:00
        A journey through experimental highlights on heavy-ion physics 30m
        Speaker: Alberto Calivà (University of Salerno)
      • 10:30
        Topology role in the feasibility of a neutron star’s matter phase candidate 20m

        One central question in nuclear astrophysics is determining the matter structure of neutron stars (NS). With the wealth of newly available and upcoming astrophysical observations, it is of most relevance to find ways to connect the microscopic properties of potential NS matter phase candidates with the observations. To understand the complicated evolution of NS binary (NSB) mergers, we will need even better simulations and a deeper fundamental understanding of the properties of hot and dense matter at very strong magnetic fields. In this talk, I will make a case for a dense quark matter phase in a strong magnetic field as a plausible candidate for the core of old magnetars and potentially also for the short-lived, superdense, and highly magnetized neutron stars that may form after the merging of NSB. I will discuss how the capacity of this phase to overcome a few astrophysical tests can be traced back to the characteristic nontrivial topology of the phase’s quark dynamics in a strong magnetic field.

        Speaker: Vivian de la Incera (University of Texas Rio Grande Valley)
    • 10:50 11:20
      Coffe break 30m Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 11:20 13:00
      Session 2 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Fulvia De Fazio (Istituto Nazionale di Fisica Nucleare)
      • 11:20
        The high-energy limit of perturbative QCD: theory and phenomenology 30m
        Speaker: Alessandro Papa (Istituto Nazionale di Fisica Nucleare)
      • 11:50
        Measuring QCD in its extremes at ATLAS 30m
        Speaker: Ynyr Harris (Oxford University)
      • 12:20
        QCD factorization amplitudes from SU(3) symmetries 20m

        A well known technique to determine the decay amplitudes of non-leptonic B meson processes is QCD factorization. One of the main issues faced by this procedure is the analytical determination of power suppressed terms, for instance of annihilation topologies. In this talk we describe the extraction of the annihilation contributions from data. Our method is based on establishing a set of rules which allow to transform the SU(3)-invariant description of B decay amplitudes into pairs of psudoscalar particles and the QCD factorization decomposition. Our approach provides not only the size of this contributions from phenomenological considerations but also a formal proof of the maximal number of degrees of freedom in the SU(3)-invariant, the topological and the QCD-factorization representations of B decay amplitudes into Pseudoscalar particles.

        Speaker: Gilberto Tetlalmatzi-Xolocotzi (Nikhef)
      • 12:40
        Modified TMD Factorization and Sub-leading Power Corrections 20m

        Factorization theorems are known to be extremely powerful tools in high-energy particle physics. Processes like SIDIS, Drell-Yan vector-boson production, Higgs-boson production through gluon fusion and $e^+e^-$ to jets and/or hadrons are just some examples of processes that have been thoroughly investigated by applying rigorous factorization formulae. Furthermore, if in these processes the transverse momentum $\textbf{q}_T$ of the vector boson or final-state hadrons is measured, in the limit of small $\textbf{q}_T$, leading-power transverse-momentum-dependent (TMD) factorization is an established tool to obtain further insight into the internal structure of hadrons (like spin and helicity distributions, sea quark contributions) and/or jets involved. However, in order to properly exploit increasingly precise experimental data, it is important to investigate sub-leading contributions. In this talk, we present a novel method to compute next-to-leading-power and next-to-next-leading-power contributions to TMD cross sections. In the specific example of a Drell-Yan process, we show how our analytic results allow us to achieve next-to-next-to-leading logarithmic (NNLL) resummation, recover both the leading-power TMD factorization and collinear factorization expressions up to next-to-next-to-leading order in the small $\textbf{q}_T$ limit and provide a description of the cross section valid also at intermediate $\textbf{q}_T$. The implications for the phenomenological extraction of TMDPDFs are also discussed.

        Speaker: Sergio Leal Gómez (Universität Wien)
    • 13:00 15:00
      Lunch break 2h Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 15:00 16:20
      Session 3 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Claudio Coriano' (LE)
      • 15:00
        Phase diagram of QCD in strong magnetic background field 20m

        We discuss the phase diagram of QCD in the presence of a strong magnetic background field, providing numerical evidence, based on lattice simulations of QCD with $2+1$ flavors and physical quark masses, that the QCD crossover turns into a first order phase transition for large enough magnetic field, with a critical endpoint located between $eB = 4$ GeV$^2$ (where we found an analytic crossover at a pseudo-critical temperature $T_c = (98±3)$ MeV) and $eB = 9$ GeV$^2$ (where the measured critical temperature is $T_c = (63±5)$ MeV).

        Speaker: Lorenzo Maio (Istituto Nazionale di Fisica Nucleare)
      • 15:20
        Electromagnetism in Quark Matter at Intermediate Densities 20m

        In this talk, I will discuss several anomalous electromagnetic effects that can take place in quark matter at low temperatures and intermediate densities. The anomalous transport properties of the spatially inhomogeneous phase of quark matter known as the Magnetic Dual Chiral Density Wave (MDCDW) phase will be reviewed. Going beyond mean-field approximation, I will show how linearly polarized electromagnetic waves that penetrate the MDCDW medium mix with the phonon fluctuations to give rise to two hybridized modes of propagation called axion polaritons. Finally, using these results, a mechanism for the possible collapse of neutron stars under the bombardment of gamma-ray bursts will be presented. This mechanism can provide a possible solution to the missing pulsar problem in the galactic center.

        Speaker: Efrain J Ferrer
      • 15:40
        Electromagnetic conductivity of quark-gluon plasma at finite baryon chemical potential 20m

        In this talk we present our study of the electromagnetic conductivity in dense quark-gluon plasma obtained within lattice simulations with $N_f$ = 2 + 1 dynamical quarks. We employ stout improved rooted staggered quarks at the physical point and the tree-level Symanzik improved gauge action. The simulations are performed at imaginary chemical potential. To reconstruct electromagnetic conductivity from current-current correlators, we employ the Tikhonov regularisation method as well as the modified Backus-Gilbert method, computing the convolution of the spectral density with the target function. Our study indicates that electromagnetic conductivity of quark-gluon plasma rapidly grows with the real baryon density.

        Speaker: Manuel Naviglio (Istituto Nazionale di Fisica Nucleare)
      • 16:00
        Realistic neutron stars from holography 20m

        In this talk I will discuss the application of the Witten-Sakai-Sugimoto model for holographic QCD to neutron star matter. I will begin with a brief review of the important features of the model, including the recent theoretical advances provided by Kovensky and Schmitt in allowing for isospin asymmetric homogeneous baryonic matter. I will then describe how this can be used to construct the neutron star equation of state entirely from holography, including a dynamical computation of the crust-core transition. Finally, I will show that despite our version of the model containing only three free parameters, it is able to account for stars which simultaneously meet the current astrophysical constraints on mass, radius and tidal deformability. This talk is based on work in collaboration with Andreas Schmitt and Nicolas Kovensky.

        Speaker: Aaron Poole (University of Southampton)
    • 16:20 16:50
      Coffee break 30m Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 16:50 18:00
      Session 4 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Donato Maria Creanza (Istituto Nazionale di Fisica Nucleare)
      • 16:50
        Chiral anomaly induced charged pion superconductivity 20m

        Determining the phase structure of nuclear and quark matter in external magnetic fields is not only of theoretical interest but also experimentally motivated by the large magnetic fields found in heavy-ion collisions and compact star physics. In Chiral Perturbation Theory, neutral pions form an inhomogeneous phase dubbed the "Chiral Soliton Lattice" (CSL) above a certain critical magnetic field as a consequence of the chiral anomaly. Above a second, even higher critical field, the CSL becomes unstable to fluctuations of charged pions, implying they condense.

        I will point out the similarity of this second critical field to the upper critical magnetic field in conventional type-II superconductors, leading to the possibility of an inhomogeneous, superconducting charged pion phase existing above this point. Applying similar methods originally used by Abrikosov, I will present results where we've constructed such a phase in the chiral limit, demonstrating that it is preferred and forms a hexagonal array of vortices. Its local effect on the baryon number density, which is non-zero and periodic like in the CSL will also be briefly discussed.

        Speaker: Geraint Evans
      • 17:10
        EIC as the next QCD collider 30m
        Speaker: Domenico Elia (Istituto Nazionale di Fisica Nucleare)
    • 18:30 20:30
      Guided tour in Lecce old town Lecce old town

      Lecce old town

    • 09:00 10:40
      Session 5 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Rosa Anna Fini (Istituto Nazionale di Fisica Nucleare)
      • 09:00
        Exclusive semileptonic B meson decays using lattice QCD and unitarity 30m
        Speaker: Silvano Simula (Istituto Nazionale di Fisica Nucleare)
      • 09:30
        QCD program at Belle II 30m
        Speaker: Anselm Vossen (Indiana University)
      • 10:00
        Nonfactorizable charming loops in exclusive rare FCNC B decays 20m
        Speaker: Dmitri Melikhov (University of Heidelberg)
      • 10:20
        Estimating one-loop radiative corrections in tau -> pi (K) nu [gamma] and testing new physics 20m

        Without a doubt the ratios $R_{\tau / P}\equiv \Gamma \left( \tau \to P \nu_{\tau}[\gamma] \right) / \Gamma \left(P\to \mu \nu_{\mu}[\gamma]\right)$ ($P=\pi,K$) give a convenient scenario to test the lepton universality, the CKM unitarity and to search for non-standard interactions in $\tau$ decays. Moreover, the previous theoretical estimation of these observables are more than twenty-five years old and some assumptions of that estimation are unrealistic. Therefore, an update of $R_{\tau / P}$ was timely. The one-loop radiative corrections have been computed by considering an expansion of Chiral Perturbation Theory including the lightest spin-one resonances and respecting the short-distance behavior dictated by QCD. We have reported $\delta R_{\tau/\pi}=(0.18\pm 0.57 )\%$ and $\delta R_{\tau/K}=(0.97\pm 0.58 )\%$, where the uncertainties have been induced fundamentally by the estimation of the counterterms. We have tested the lepton universality, the CKM unitarity and have searched for new physics in $\tau$ decays. As a by-product, we have also determined the theoretical radiative corrections to the $\tau \to P \nu_{\tau}[\gamma]$ decay rates, $\delta_{\tau \pi} = -(0.24 \pm 0.56) \%$ and $\delta_{\tau K} = -(0.15 \pm 0.57) \%$.

        Speaker: Ignasi Rosell (Universidad CEU Cardenal Herrera)
    • 10:40 11:10
      Coffee break 30m Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 11:10 12:30
      Session 6 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Gabriele Chiodini (Istituto Nazionale di Fisica Nucleare)
      • 11:10
        3D nucleon structure: where we stand, where we'll be heading to 30m
        Speaker: Mariaelena Boglione (Istituto Nazionale di Fisica Nucleare)
      • 11:40
        Hard exclusive meson production in muon scattering at COMPASS 20m
        Speaker: Andrzej Sandacz (National Centre for Nuclear Research, Warsaw)
      • 12:00
        Recent LHCb results for heavy ions 30m
        Speaker: Giacomo Graziani (Istituto Nazionale di Fisica Nucleare)
    • 12:30 15:00
      Lunch break 2h 30m Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 15:00 16:00
      Session 7 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Donato Maria Creanza (Istituto Nazionale di Fisica Nucleare)
      • 15:00
        Constraining heavy-flavour PDFs at hadron colliders 20m
        Speaker: Marco Guzzi (Kennesaw State University)
      • 15:20
        Charming hadronization measurements with the ALICE experiment 20m
        Speaker: Marco Giacalone (Istituto Nazionale di Fisica Nucleare)
      • 15:40
        High pT results and parton density functions from ATLAS 20m
        Speaker: Javier Llorente Merino
    • 16:00 16:30
      Coffee break 30m Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 16:30 17:50
      Session 8 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Luigi Delle Rose (Istituto Nazionale di Fisica Nucleare)
      • 16:30
        From PT Quantum Mechanics to PT Holography 25m
        Speaker: Karl Landsteiner (Instituto de Fisica Teorica CSIC/UAM)
      • 16:55
        Nonperturbative renormalization in large-N QCD and topological strings 25m
        Speaker: Marco Bochicchio (Istituto Nazionale di Fisica Nucleare)
      • 17:20
        From dS to AdS and back 25m
        Speaker: Massimo Taronna (Istituto Nazionale di Fisica Nucleare)
    • 09:00 10:50
      Session 9 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Claudio Coriano' (LE)
      • 09:00
        High precision measurement of the W boson mass with the CDF II detector 30m
        Speaker: Chris Hays (University of Oxford (GB))
      • 09:30
        NNLO accurate QCD predictions for the LHC 30m
        Speaker: Massimiliano Grazzini (Istituto Nazionale di Fisica Nucleare)
      • 10:00
        The PDF4LHC21 combination of global PDF fits for the LHC Run III 20m
        Speaker: Emanuele Roberto Nocera (Higgs Centre for Theoretical Physics, School of Physics and Astronomy, University of Edinburgh)
      • 10:20
        CMS experimental results 30m
        Speaker: Qun Wang (DESY)
    • 10:50 11:20
      Coffee break 30m Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 11:20 13:00
      Session 10 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Eugenio Nappi (Istituto Nazionale di Fisica Nucleare)
      • 11:20
        Overview of most recent BES III results 30m
        Speaker: Marco Scodeggio (Istituto Nazionale di Fisica Nucleare)
      • 11:50
        Exotic states 30m
        Speaker: Elena Santopinto (Istituto Nazionale di Fisica Nucleare)
      • 12:20
        Impact of clustering inside compact tetraquarks 20m
        Speaker: Hagop Sazdjian (Université Paris-Saclay, IJCLab)
      • 12:40
        Weak decays of the double-beauty tetraquark 20m
        Speaker: Birten Barsbay

        total 30 min (20+10)

    • 13:00 15:00
      Lunch break 2h Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 15:00 16:00
      Posters: poster session + coffee Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      • 15:00
        Asymptotic symmetries, soft theorems and memory effects in gravity 1m

        Over the last few years a triangular equivalence relation was discovered connecting three apparently different topics: asymptotic symmetries, soft theorems and memory effects. This equivalence relation can be drawn potentially in every theory with a massless particle, for example in QED, QCD, SUSY, gravity and string theory.
        I will review the triangular equivalence in the context of gravity and I will examine its generalization in arbitrary even dimensions. I will focus in particular on the connection between the subleading soft graviton theorem and asymptotic symmetries.

        Speaker: Stefano Lionetti (Istituto Nazionale di Fisica Nucleare)
      • 15:01
        Study of n = 2 D-wave charm mesons 1m

        By exploring Heavy Quark Effective theory, We predicted masses and decay widths for n=2 D-wave charm mesons. We use available data for bottom mesons and apply heavy quark symmetry to predict masses and decay widths in terms of coupling constants. These predictions may helpful in upcoming experiments at LHCb BESIII, PANDA to look into these states.

      • 15:02
        Scale Invariance, Renormalization, and the Naturalness/Hierarchy problem 1m

        In the search for physics beyond the Standard Model, in recent years interest has grown towards models with classical scale invariance. When the radiative corrections are calculated within the framework of dimensional regularization, the scale invariance at the quantum level is only logarithmically broken. The (small) values of the particle masses are then generated through a Coleman-Weinberg mechanism, and no naturalness/hierarchy problem seems to be present. Based on novel studies on renormalization, in this talk I will present a thorough analysis of the problem, with particular attention to dimensional regularization. More specifically, I will investigate on the possibility of applying recently proposed peculiar renormalization schemes, that seem to be necessary to implement some popular models.

        Speaker: Filippo Contino
      • 15:03
        Machine Learning model driven prediction of the initial geometry in Heavy-Ion Collision experiments 1m

        We demonstrate high prediction accuracy of three important properties that determine the initial geometry of the heavy-ion collision (HIC) experiments by using supervised Machine Learning
        (ML) methods. These properties are the impact parameter, the eccentricity, and the participant
        eccentricity. Though ML techniques have been used previously to determine the impact parameter
        of these collisions, we study multiple ML algorithms, their error spectrum, and sampling meth-
        ods using exhaustive parameter scans and ablation studies to determine a combination of efficient
        algorithm and tuned training set that gives multi-fold improvement in accuracy for all three differ-
        ent heavy-ion collision models. The three models chosen are a transport model, a hydrodynamic
        model, and a hybrid model. The motivation for using three different heavy-ion collision models
        was to show that even if the model is trained using a transport model, it gives accurate results
        for a hydrodynamic model as well as a hybrid model. We show that the accuracy of the impact
        parameter prediction depends on the centrality of the collision. With the standard application of
        ML training methods, prediction accuracy is considerably low for central collisions. Our method
        increases this accuracy by multiple folds. We also show that the eccentricity prediction accuracy
        can be improved by the inclusion of the impact parameter as a feature in all these algorithms. We
        discuss how the errors can be minimized and the accuracy can be improved to a great extent in all
        the ranges of impact parameter and eccentricity predictions.

      • 15:04
        Transverse Spherocity and Multiplicity Dependence of $R_{2}$ and $P_{2}$ Correlation Functions in pp Collisions at $\sqrt{\textit{s}}$ = 7 TeV Using PYTHIA8 1m

        Event shape observables such as transverse spherocity($S_{0}$) have evolved as a
        powerful tool to separate soft and hard contributions in an event in small collision
        systems. To understand this phenomenon, we used two-particle differential-number
        correlation functions, $R_{2}$, and transverse momentum correlation functions, $P_{2}$, of
        charged particles produced in pp collisions at the LHC center-of-mass energy
        $\sqrt{\textit{s}}$ = 7 TeV with the PYTHIA model. The $\Delta\varphi$-dependance of these correlation
        functions in different multiplicity and $S_{0}$ classes are discussed . We find that these
        correlation functions exhibit different shapes and sizes in both near-side(NS)
        and away-side(AS) with multiplicity and $S_{0}$ classes. We see a strong correlation
        in the NS and AS of these correlation functions for low-$S_{0}$(jetty-like),
        which become weaker for high-$S_{0}$(isotropic). In addition, mean-$\textit{p}_{\rm T}$ of charged
        particles for low-$S_{0}$, high-$S_{0}$ and $S_{0}$-integrated are discussed. Finally, it was
        observed that $S_{0}$ should be a good observable as compared to multiplicity to
        disentangle jetty and isotropic events in a small collision system.

      • 15:05
        First bent wafer-scale sensor in truly-cylindrical geometry for the ALICE ITS3 detector 1m

        A pillar of the ALICE upgrade program is the improvement of the Inner Tracking System (ITS2)
        performance by the replacement of its three innermost layers during the next/third long shutdown of
        the LHC (LS3) . The proposal is based on a vertex detector consisting of three cylindrical layers
        composed by curved wafer-scale silicon sensors. The new detector will present a significant
        reduction of the material budget, thus improving the spatial resolution of the reconstructed charged
        tracks. Extensive characterization studies of bent single ALPIDE chips (used for the current ITS),
        have been carried out to evaluate their performance under the mechanical stress involved in the
        bending process and the results have demonstrated that none of the ALPIDE functionalities are
        affected by the curvature effect. These tests on small sensors have opened the way to the
        investigation of a large scale sensor: a full size demonstrator of a half-layer in a truly cylindrical
        shape is being assembled for the first time, based on so called super-ALPIDE chips. Such activity
        has required the development of special tools and procedures dedicated to bend and read out the
        new pixel matrix.

        Speaker: Arianna Grisel Torres Ramos (Istituto Nazionale di Fisica Nucleare)
      • 15:06
        Bubble wall dynamics at the electroweak phase transition 1m

        Bubble nucleation is a key ingredient in a cosmological first order phase transition. The non-equilibrium bubble dynamics and the properties of the transition are controlled by the density perturbations in the hot plasma. We present, for the first time, the full solution of the linearized Boltzmann equation. Our approach, differently from the traditional one based on the fluid approximation, does not rely on any ansatz. We focus on the contributions arising from the top quark species coupled to the Higgs field during a first-order electroweak phase transition. Our results significantly differ from the ones obtained in the fluid approximation with sizeable differences for the friction acting on the bubble wall.

        Speaker: Andrea Guiggiani (Università degli studi di Firenze)
      • 15:07
        Measurement of $R_{2}(\Delta\eta, \Delta\varphi)$ and $P_{2}(\Delta\eta, \Delta\varphi)$ correlation functions in pp collisions at $\sqrt{\textit{s}}$ = 13 TeV using ALICE data 1m

        Two-particle normalized cumulants of particle number correlations ($R_{2}$) and transverse momentum correlations ($P_{2}$) measured as a function of relative pseudorapidity and azimuthal angle difference $(\Delta\eta, \Delta\varphi)$ provide key information about particle production mechanism, diffusivity, charge and momentum conservation in high-energy collisions. To complement the recent ALICE measurements in Pb--Pb collisions, as well as for better understanding of the jet contribution and nature of collectivity in small systems, we measure these observables in pp collisions at $\sqrt{\textit{s}}$ = 13 TeV with similar kinematic range, 0.2 $<$ $\textit{p}_{\rm T}$ $\leq$ 2.0 $\rm{GeV}/\textit{c}$. The near-side and away-side correlation structures of $R_{2}$ and $P_{2}$ are qualitatively similar, but differ quantitatively. Additionally, a significantly narrower near-side peak is observed for $P_{2}$ as compared to $R_{2}$ for both charge-independent and charge-dependent combinations like in the recently published ALICE results in p--Pb and Pb--Pb collisions. Being sensitive to the interplay between underlying event and mini-jets in pp collisions, these results not only establish a baseline for heavy-ion collisions but also allow one to understand better signals which resemble collective effects in small systems.

      • 15:08
        Grey Tracks as probes of Hadronization Dynamics 1m

        Energetic quarks liberated from hadrons in nuclear deep-inelastic scattering propagate through the nuclear medium, interacting with it via several processes. These include quark energy loss through medium-stimulated gluon bremsstrahlung and intra-nuclear interactions of forming hadrons. One manifestation of these interactions is enhanced emission of low-energy charged particles, referred to as grey tracks.To make use of the theoretical components of the BeAGLE event generator to interpret grey track signatures of parton transport and hadron formation by comparing its predictions to E665 data. We extend the base version of BeAGLE by upgrading the PyQM module, which now offers four different options for the description of parton energy loss to the existing complement of hadronic and prehadronic interactions inside nuclei. The E665 data we used consist of multiplicity ratios for fixed-target scattering of 490 GeV muons on gaseous Xe normalized to liquid D as a function of the number of grey tracks produced. We compare multiplicity ratios for E665 grey tracks, which are defined as charged particles with momenta between 200 and 600 MeV/c and greater energy loss in detector materials than a minimum ionizing particle, to the predictions of BeAGLE, varying the PyQM options and parameters to determine which physics phenomena can be identified by these data. We divide the data into charge and rapidity classes for all charged hadrons, which have an average momentum of 5 GeV with a high-energy tail extending to nearly the beam energy.The BeAGLE predictions for forward rapidities (y$>$2 in the virtual photon-nucleon center of mass frame) agree with the E665 data for up to 2-4 grey tracks per event. Beyond that range, BeAGLE overpredicts the charged particle multiplicity ratios for all PyQM options in comparison to the data. For backward rapidities (y$<$-1), BeAGLE underpredicts multiplicity ratios for positively charged particles, which are primarily protons, while providing an excellent description of negatively charged particles. In BeAGLE we find that grey tracks are unaffected by modifications of the forward production, thus their production must be dominated by interactions with hadrons in the backward region, where they are much more numerous. We see a strong correlation between the number of grey tracks and the in-medium pathlength. This offers the advantage that a selection of certain particles in the forward region is unlikely to bias a centrality selection. Our energy loss model does not reproduce the suppression observed in the projectile region, even with rather large $\hat{q}$. These results lay an important foundation for future spectator tagging studies at the Electron Ion Collider, where both neutron and proton grey track studies will be feasible down to very small momenta.

      • 15:09
        Next to SV resummed prediction for pseudoscalar Higgs boson production at NNLO$+\overline{\text{NNLL}}$ 1m

        We present first results on the resummation of Next-to-Soft Virtual (NSV) logarithms for the threshold production of pseudoscalar Higgs boson through gluon fusion at the LHC. These results are presented after resumming the NSV logarithms of the kind ${\log}^{i}(1-z)$ to $\overline{\text{NNLL}}$ accuracy and matching them systematically to the fixed order NNLO cross-sections. These results are obtained using collinear factorization, renormalization group invariance and recent developments in the NSV resummation techniques. The phenomenological implications of these NSV resummed results for 13 TeV LHC are studied and it is observed that these NSV logarithms are quite large. We also evaluate theory uncertainties and find that the renormalization scale uncertainties get reduced further with the inclusion of NSV corrections at various orders in QCD. We further study the impact of QCD corrections on mixed scalar-pseudoscalar states for different values of the mixing angle $\alpha$.

      • 15:10
        Strange Quark Matter from a Baryonic Approach 1m

        Cold and dense matter can be explored in a systematic way both in the high-density (perturbative QCD) and low-density (Chiral EFT) regime. However, the path connecting them is yet to be discovered. As a result, these descriptions are usually extrapolated into the intermediate density regime and then connected at some transition point. In this work I will present a model that has features of both, but within a unified description. The model contains hadronic degrees of freedom and is calibrated using nuclear matter properties; yet it exhibits a phase transition towards a “quark matter” phase that has approximately restored chiral symmetry, strangeness, and asymptotes to the conformal limit of the speed of sound. While this model can describe different qualitative scenarios regarding the phase transition and the strangeness onset, empirical constraints significantly narrow down the allowed parameter range. Moreover, hybrid stars above two solar masses are predicted, exhibiting a stiff “quark matter” core. This approach has implications for the hyperon puzzle and is also crucial for future exploration of inhomogeneous phases and the surface tension between hadron and quark phases.

        Speaker: Mr Savvas Pitsinigkos (University of Southampton)
      • 15:11
        Diffusion of heavy quarks in the early stages of high energy nuclear collisions 1m

        Heavy quarks are considered potential probes of the QCD matter produced in high-energy heavy-ion collisions. In the pre-equilibrium stage of relativistic heavy-ion collisions, strong quasi-classical gluon fields emerge at about $\tau_0=0.08$ fm/c which evolves according to the classical Yang-Mills (CYM) equations. These set of classical fields is known as Glasma. We study the diffusion of the heavy quarks, namely, charm and bottom quarks in the early stage of heavy-ion collisions. The diffusion in the evolving Glasma fields is compared with that of the Markovian-Brownian motion in a thermalized medium. The diffusion of HQs in the evolving glasma (EvGlasma) is investigated within the framework of Wong equations while we use famous Langevin equations for the Brownian motion with diffusion coefficients evaluated within the pQCD framework.We observe that for a smaller value of saturation scale, $Q_s$, the average transverse momentum broadening is approximately the same for the two cases, but for larger $Q_s$, Langevin dynamics underestimates the $\sigma_p$. This difference is related to the fact that heavy quarks in the Glasma fields experience diffusion in strong, coherent gluon fields that lead to a faster momentum broadening due to memory, or equivalently to a strong correlation in the transverse plane. We present another interesting result related to bottom quarks. We have observed that bottom quarks are more affected by the pre-equilibrium phase due to their large masses. Their slow motion makes them spend a long time within a single filament and experience the coherent gluonic fields for a longer time.

        Speaker: Pooja - (IIT Goa)
      • 15:12
        Spectroscopic Analysis of exotic hadrons using effective theories 1m

        Predicition of tetraquark nad pentaquark masses have been done using effective theories and also there classification using different possible symmetries are done.

      • 15:13
        Inclusive semileptonic Lambda_b decays 1m

        Inclusive semileptonic decays of beauty baryons are studied using the heavy quark expansion to order 1/mb^3 at leading order in α_{s}
        The case of a polarized decaying baryon is examined, with reference to Λ_b.
        ​The decays are studied in SM and in the extension based on the full set of D=6 semileptonic operators.

        Speaker: Francesco Loparco (Istituto Nazionale di Fisica Nucleare)
      • 15:14
        Multiquark-Oriented QCD Sum Rules 1m

        By systematic analysis, the contributions to two- and three-point Green functions that involve operators interpolating multiquark hadrons may be unambiguously and disjointly separated into those that may support a given multiquark and those that definitely do not. Upon evaluation of any such Green function within the framework of QCD sum rules, the rigorously identifiable latter contributions may and should be split off, whereas the former contributions constitute “multiquark-adequate” QCD sum rules potentially capable of providing information about the exotic hadron under study. The “multiquark-phile” contributions to Green functions necessarily involve at least two gluon exchanges of appropriate topology.

      • 15:15
        Semirelativistic potential modelling of bound states: Advocating due rigour 1m

        Within quantum field theory, an adequate formalism for the description of (two-particle) bound states, such as ordinary mesons, is provided by the Poincaré-covariant homogeneous Bethe‒Salpeter equation. From this — frequently rather involved — framework, however, it is not always quite easy to extract predictions. In view of this, a coarse idea of the bound-state spectrum to be expected may be gained by adhering to various simplifying approximations, which forms an entirely legitimate first step. The reliability of the insights deduced from the resulting simpler bound-state formalism may be straightforwardly examined by taking into account a couple of rigorous constraints on the emerging discrete spectrum. This has been illustrated for a variety of both singular interaction potentials, such as those of Coulomb or Yukawa shape, and nonsingular ones, such as the one proposed by Woods and Saxon.

      • 15:16
        Quantum Field Theory and its Anomalies for Topological Matter 1m

        Topology enters in quantum in quantum field theory in multiple forms: one of the
        most important being the identification of the $\theta$ vacuum in QCD.
        A very relevant aspect of this connection is through the phenomenon of
        the anomalies, both chiral and conformal.
        It has been realized recently that a class of materials, comprising topological insulators and Weyl semimetals,
        exhibit the phenomenon of anomalies, which produce several exotic phenomena in these
        materials. The presence of superconducting currents, resilient under perturbations and scattering
        by impurities, indeed, has been associated with the phenomenon of quantum field theory anomalies. For instance, the description of the
        response functions of these materials under thermal and mechanical stress involves general relativity, and
        correlation functions of stress energy tensors, therefore, play an important role in this context.
        In this work we discuss local and nonlocal effective actions relevant for their quantum field theory descriptions, their consistent
        definition in Dimensional Regularization, and the long-range interactions appearing in their expansion respect to the external
        sources.

        Speaker: Mario Cretì (Istituto Nazionale di Fisica Nucleare)
      • 15:17
        Gravitational coupling of QED and QCD: the study of 3 and 4-point functions in momentum space 1m

        Conformal symmetry has important consequences for strong interactions at short distances and provides powerful tools for practical calculations. Even if the Lagrangians of Quantum Chromodynamics (QCD) and Electrodynamics (QED) are invariant under conformal transformations, this symmetry is broken by quantum corrections. The signature of the symmetry breaking is encoded in the presence of massless poles in correlators involving stress-energy tensors. We present a general study of the correlation functions $TJJ$ and $TTJJ$ of conformal field theory (CFT) in the flat background limit in momentum space, following a reconstruction method for tensor correlators. Furthermore, we discuss the dimensional degeneracies of the tensor structures related to these correlators, and we present the perturbative realizations of $3$- and $4$-point functions in momentum space for QED and QCD.

        Speaker: Riccardo Tommasi (INFN-Lecce)
      • 15:18
        Holographic study of a Q Qbar chaotic dynamics in general thermal background 1m

        An holographic approach is applied to study chaotic behaviour of a strongly coupled Q Qbar pair in general thermal background. We consider two different backgrounds, one with finite temperature and baryon density, and one with finite temperature and constant magnetic field along a fixed direction. The results allow us to understand the chaotic dynamics dependence on the parameters of the background, to test the bound on chaos conjectured by Maldacena, Shenker and Standford (MSS) and a possible generalization.

        Speaker: Nicola Losacco (Istituto Nazionale di Fisica Nucleare)
      • 15:19
        Relations among B_c to J/psi, eta_c form factors 1m

        We analyze the form factors that parametrize the B_c to J/psi, eta_c matrix elements of the operators in the effective b to c semileptonic Hamiltonian. We consider an expansion in nonrelativistic QCD, classifying the heavy quark spin symmetry breaking terms and expressing the form factors in terms of universal functions in a selected kinematical range. Using as an input the lattice QCD results for the $B_c \to J/\psi$ matrix element of the SM operator, we obtain information on these universal functions and other form factors.

        Speaker: Martin Rodrigo Novoa Brunet (Istituto Nazionale di Fisica Nucleare)
      • 15:20
        Tracking Performances Studies for the Experimental Setup at the Electron-Ion Collider 1m

        The proposed Electron-Ion Collider (EIC) at the Brookhaven National Laboratory will study the collisions of polarized electrons with polarized protons and ions. The measurement of scattered electrons and charged particles will provide the main ingredients to achieve the physics objectives given below.
        ˆ Distribution of sea quarks and gluons, and their spins inside the nucleon, basically 3D imaging of a nucleon.
        ˆ The state of hadronic matter at extremely high gluon density (low-x regime).
        ˆ Interaction of color-charged quarks and gluons, and colorless jets, with a nuclear medium.
        In this way, the EIC will answer several important questions of QCD Physics. A Totally Hermetic Electron-Nucleus Apparatus (ATHENA) detector is one of the proposed configurations to study collisions at the EIC with very high tracking and particle identi cation performances. The ATHENA tracking detector consists of
        barrel, forward, and backward detectors to have a wide pseudo-rapidity ( ) coverage. The central detector relies on three innermost silicon layers with a very small material budget ( 0.05% X0 per layer), two silicon barrel layers ( 0.55 % X0 per layer) and four micro-megas layers ( 0.40% X0 per layer) at larger radii.
        The silicon layers are based on new-generation MAPS in 65 nm CMOS imaging technology. Forward and backward disks allow for reconstructing particles at larger. In this presentation, the tracking performance as studied in a full simulation of the ATHENA configuration will be described. A new collaboration is going to be formed by combining ATHENA and EIC Comprehensive Chromodynamics Experiment (ECCE) proto-collaborations and detector proposals (known as Detector-1 Collaboration): we are currently studying and optimizing the tracking performances for this setup in view of the Technical Design Report activity expected in the next year.

        Speaker: Shyam Kumar (Istituto Nazionale di Fisica Nucleare)
      • 15:21
        Excess-proton directed flow in 19.6 GeV Au+Au collisions 1m

        Directed flow of particles is an important feature seen in heavy-ion collisions and is a sensitive probe of the equation of state (EoS) of the matter produced in the collisions. Model calculations have also predicted that directed flow could be a sensitive probe of the softening of EOS associated with a first order phase transition. Directed flow of protons and anti-protons are of particular interest as they offer sensitivity to both the contributions from the transported quarks and also the medium generated component from the produced quarks. We will present measurements of the directed flow of protons and antiprotons from 19.6 GeV Au+Au collisions, using high statistics BES-II data from STAR. The new results have significantly reduced uncertainties and allow the study of how the two contributions vary over different centrality and transverse momentum regions.

        Speaker: Spyridon Margetis (Kent State University)
    • 16:00 18:00
      Session 11 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Fulvia De Fazio (Istituto Nazionale di Fisica Nucleare)
      • 16:00
        SIDDHARTA2 and future perspectives 20m
        Speaker: Luca De Paolis (Istituto Nazionale di Fisica Nucleare)
      • 16:20
        Pseudo- and quasi- PDFs in the BFKL approximation 20m
        Speaker: Giovanni Antonio Chirilli (University of Regensburg)
      • 16:40
        Hadronic ligh-by-light contribution to (g-2)_mu 20m
        Speaker: Luigi Cappiello (Istituto Nazionale di Fisica Nucleare)
      • 17:00
        U(1)_A axial anomaly, eta', and topological susceptibility in the holographic soft-wall model 20m
        Speaker: Floriana Giannuzzi (Istituto Nazionale di Fisica Nucleare)
      • 17:20
        Extra dimensions, compactification, and the Higgs mass controversy 20m
        Speaker: Carlo Branchina (LPTHE Sorbonne Université)
    • 20:30 23:00
      Workshop dinner Restaurant Semiserio

      Restaurant Semiserio

      via dei Mocenigo 21
    • 09:00 10:40
      Session 12 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Giuseppe Eugenio Bruno (Istituto Nazionale di Fisica Nucleare)
      • 09:00
        Latest results from the NA62 and and NA48/2 experiments 30m
        Speaker: Michele Corvino (NA)
      • 09:30
        Spectroscopy of the excited Ds mesons 20m
        Speaker: Francesco De Bernardis (INFN)
      • 09:50
        Tsallis statistics and QCD thermodynamics 20m
        Speaker: Eugenio Megias (University of Granada)
      • 10:10
        TOTEM recent experimental results 30m
        Speaker: Francesco Saverio Cafagna (Istituto Nazionale di Fisica Nucleare)
    • 10:40 11:10
      Coffee break 30m Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
    • 11:10 13:30
      Session 13 Auditorium

      Auditorium

      Auditorium del Museo Provinciale "Sigismondo Castromediano" - Lecce (Italy)

      viale Gallipoli 28
      Convener: Pietro Colangelo (Istituto Nazionale di Fisica Nucleare)
      • 11:10
        Bubble wall dynamics at the electro weak phase transition 25m
        Speaker: Luigi Delle Rose
      • 11:35
        Additional baryons and mesons 25m

        In a particle theory model whose most readily discovered new particle is the ∼1TeV bilepton resonance in same-sign leptons, currently being sought at CERN's LHC, there exist three quarks D, S, T which will be bound by QCD into baryons and mesons. We consider the decays of these additional baryons and mesons whose detailed experimental study will be beyond the reach of the 14 TeV CERN collider and accessible only at an O(100 TeV) collider.

        Speaker: Paul Frampton (University of Salento)
      • 12:00
        Naturalness and Hierarchy problems: a thorough analysis and an outrageous proposal 25m
        Speaker: Vincenzo Branchina (University of Catania)
      • 12:25
        The axion potential in quark matter 25m
        Speaker: Marco Ruggieri (Lanzhou University)
      • 12:50
        Chiral phase transitions, scaling window and crossovers in hot QCD 25m
        Speaker: Maria Paola Lombardo (Istituto Nazionale di Fisica Nucleare)