FLASY 2024: the 10th Workshop on Flavor Symmetries and Consequences in Accelerators and Cosmology

US/Pacific
1010 (ISEB)

1010

ISEB

419 Physical Sciences Quad, Irvine, CA 92697
Michael Ratz, Mu-Chun Chen (University of California - Irvine)
Description

FLASY 2024: the 10th Workshop on Flavor Symmetries and Consequences in Accelerators and Cosmology

The 10th edition of FLASY will take place from June 24-28 in Irvine, CA. The conference will bring together researchers in the field of flavor symmetries, neutrino physics, Higgs physics, CP violation, accelerator physics, and cosmology to present new results and stimulate discussion and new collaborations. The workshop sessions will take place at the Interdisciplinary Science and Engineering Building (ISEB) on the University of California, Irvine (UCI) campus.
 
Confirmed plenary speakers include:
  • Wolfgang Altmannshofer (UCSC, USA)
  • Monika Blanke (Karlsruhe Institute of Technology (KIT), Germany)
  • We-Fu Chang (National Tsing Hua University, Taiwan)
  • Eung Jin Chun (KIAS, South Korea)
  • Ramond Co (Indiana University, USA)
  • Alakabha Datta (University of Mississippi, USA)
  • Anjan Giri (IIT Hyderarbad, India)
  • Koichi Hamaguchi (University of Tokyo, Japan)
  • Xiao-Gang He (National Taiwan University, Taiwan; Shanghai Jaotung University, China)
  • Sudip Jana (MPI Heideberg, Germany)
  • Tom Kephart (Vanderbilt University, USA)
  • Ernest Ma (UC Riverside, USA)
  • Gopi Mohlabeng (Simon Fraser University, Canada)
  • Rukmani Mohanta (University of Hyderabad, India)
  • Myriam Mondragon (UNAM, Mexico)
  • Julie Pagès (UCSD, USA)
  • Pierre Ramond (University of Florida, USA)
  • Saúl Ramos-Sanchez (UNAM, Mexico)
  • Zahra Tabrizi (Northwestern/FNAL)
  • Anil Thapa (University of Virginia, USA)
  • Mauro Valli (INFN Roma, Italy)

 

 

Registration fee for the workshop is 350 USD. Student registration fee is 100 USD. To participate at the workshop please follow the following steps:

  • Submit an abstract by May 17 if you would like to give a talk; 
  • Register on Indico;
  • After the registration on Indico, please proceed to the link provided to pay the registration fee. Note that registration will be confirmed only after the payment of conference fee is made.
  • After submitting the payment for conference registration fee, you will be able to access the links for reservation at one of the three hotels where we have negotiated discounted rates. Note that the list of hotels is shown on the page that confirm your registration fee payment. 

 

Accessibility: We strive to make FLASY 2024 accessible. On the registration page, one may request accommodations to support specific needs for conference attendance.

Registration
FLASY 2024 registration
    • Opening 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 1
        Check-in at Registration Desk
      • 2
        Opening
    • Flavor in Quark Sector 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 3
        Cutting operators with MATCHETE: automatic reduction to a minimal EFT basis and treatment of evanescent operators

        MATCHETE is a Mathematica program designed to automate the one-loop matching of a generic weakly-coupled UV theory to its corresponding Effective Field Theory (EFT) where heavy modes have been integrated out. By relying on functional methods, the matching process is very systematic and well-suited for computer execution. On the other hand, reduction of the obtained result to a minimal EFT basis, using integration by parts, reduction of Dirac and group structures, fierz identities and field redefinitions, present several challenges for the automation. In particular, evanescent operators appearing at one-loop from tree-level matching need to be addressed.
        After describing the working principles of Matchete, I will present its current and future functionalities and demonstrate its application using a toy model.

        Speaker: Julie Pagès
      • 10:45 AM
        Coffee Break
    • Flavor and Astrophysics 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 4
        Adding Flavors to Axiogenesis and Spicing Up Cosmological Mysteries

        A rotation in Peccei-Quinn field space along the axion direction can address cosmological mysteries, including dark matter, baryon asymmetry, cosmic perturbations, and the Hubble tension. This dynamics may naturally arise as a result of quantum gravity effects and cosmic inflation. Axion rotations can simultaneously give a new origin of axion dark matter via kinetic misalignment and generate the observed excess of matter over antimatter in the Universe via axiogenesis. For ultralight (QCD) axions, this cogenesis scenario predicts axion properties more experimentally accessible than the conventional ones. For heavy and cosmologically unstable QCD axions, predictions from axiogenesis point to regions that can be probed by neutrino experiments and long-lived particle searches. In this talk, we will provide an overview of this paradigm and discuss exciting potential connections to flavor physics.

        Speaker: Raymond Co (Indiana University)
    • 12:00 PM
      Lunch
    • Flavor in Quark Sector 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 5
        Flavor Anomalies: Where Do We Stand?
        Speaker: Mauro Valli (INFN Rome)
    • 2:45 PM
      Coffee break 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
    • Flavor and Astrophysics 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 6
        Dark Matter Heating of Neutron Stars: Advantages and Challenges
        Speaker: Koichi Hamaguchi
    • Reception University Club

      University Club

    • Flavor and Astrophysics 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 7
        Flavoured Dark Matter - from Freeze-Out Scenarios to LHC Signatures
        Speaker: Monika Blanke (Karlsruhe Institute of Technology)
      • 10:00 AM
        Coffee Break
      • 8
        Flavorful Dark Matter
        Speaker: Xiao-Gang He
      • 9
        Searching for light accelerated dark matter

        Low mass accelerated dark matter (DM) is very well motivated and has been a subject of much attention in the literature. These fast-moving particles can gain enough kinetic energy to surpass the energy thresholds of some Large volume terrestrial detectors. For instance, fast-moving DM can deposit sizable amounts of energy at both large volume neutrino detectors and dark matter direct detection experiments. In this talk, I will focus on searches for both multi-component "boosted" DM and cosmic-ray accelerated DM. I will present recent and on-going work which explores these accelerate DM scenarios using a variety of probes.

        Speaker: Gopolang Mohlabeng (University of California, Irvine)
    • 12:00 PM
      Lunch
    • Flavor and Astrophysics 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 10
        Flavonic dark matter

        We present a common solution to dark matter and the flavor problem n the framework of the discrete flavor symmetry.

        where the associated flavonic Goldstone boson acts as a good dark matter candidate through the misalignment mechanism.

        For light active neutrinos, the Dirac-type mass matrix is preferred to fit the observed neutrino oscillation data with normal hierarchy.

        Our model predicts the axion-like photon coupling characteristically different from the standard QCD axion, and only two limited coners of

        the parameter space can be probed by the future X-ray and radio observations, respectively.

        Speaker: Eung Jin Chun
      • 2:45 PM
        Coffee Break
    • Neutrinos 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 11
        Searches For Exotic Particles at Neutrino Experiments
        Speaker: Zahra Khajeh Tabrizi
    • Neutrinos 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 12
        Exploring Electromagnetic Properties of Neutrinos
        Speaker: Dr Sudip Jana (Max-Planck-Institut für Kernphysik)
      • 10:00 AM
        Coffee Break
      • 13
        Exploring Neutrino non-standard interaction

        I will provide a brief introduction of neutrinos and some results. Thereafter, I will use Neutrino non-standard interaction (NSI) as a beyond the standard model scenario to see its effects in the upcoming long baseline neutrino experiments DUNE and T2HK. One can find that the NSI can spoil the clean determination of the standard neutrino parameters. I will also comment on the implications of NSI in LFV muon decays and conclude with some remarks.

        Speaker: Anjan Giri
      • 14
        A sterile neutrino solution to the B and MiniBooNe anomalies
        Speaker: Prof. Alakabha Datta (University of Mississippi)
    • 12:00 PM
      Lunch
    • Neutrinos 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 15
        Dirac neutrinos and parity solution to the strong CP problem
        Speaker: Anil Thapa (University of Virginia)
    • 2:45 PM
      Coffee break 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
    • Flavor Symmetries 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 16
        Flavour in Finite SU(5) Grand Unified Theories

        We study four SU (5) supersymmetric models which exhibit S3 and/or ZN
        symmetries, that are finite to two or all loops and their corresponding mass
        matrices. Some of the models have viable mass textures, like the Nearest Neighbour
        Interaction one. In particular, an all-loop finite model was identified, which
        has a significant parameter reduction and could reproduce the observed quark
        masses and mixing pattern. In this case the finiteness conditions determine the absolute value of the Yukawa couplings at the
        unification scale, although not the Higgs vevs. For the two-loop finite models, a range of values
        for the Yukawa couplings is also found. We include an analysis of the number
        and position of the phases, not previously done in Finite Unified Theories,
        which contributes towards the reduction of parameters.

        Speaker: Myriam Mondragon (Universidad Nacional Autonoma de Mexico UNAM)
      • 17
        A gauge horizontal model of charged fermion masses
        Speaker: Prof. We-Fu Chang (National Tsing Hua University)
    • Flavor Symmetries 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 18
        A Scan of small Quiver Models with Bifundamental Matter
        Speaker: Tom Kephart
      • 19
        Quark-Lepton mass relations from Modular Flavor Symmetry
        Speaker: Omar Medina (IFIC (CSIC-Universitat de València))
      • 10:15 AM
        Coffee Break
      • 20
        Implication of A4 modular symmetry on neutrino masses, mixing and leptogenesis

        Motivated by the crucial role played by the discrete flavour symmetry groups in explaining the
        observed neutrino oscillation data, we consider the application $A_4$ modular symmetry in the
        linear seesaw framework. The basic idea behind using the modular symmetry is to minimize the
        necessity of the inclusion of extra flavon fields having specific vacuum expectation value (VEV) alignments.
        The breaking of flavor symmetry takes place when the complex modulus $\tau$ acquires VEV.
        The main issue of the perplexing vacuum alignment is avoided, the only requirement is a certain
        kind of mechanism which can fix the modulus $\tau$. The non-trivial transformation of Yukawa
        couplings under the $A_4$ modular symmetry helps to explore the neutrino phenomenology with
        a specific flavor structure of the mass matrix. We discuss the phenomena of neutrino mixing and also
        show the non-zero CP asymmetry from the decay of lightest heavy fermion superfield to explain
        the preferred phenomena of baryogenesis through leptogenesis including flavor effects.

        Speaker: Rukmani Mohanta
      • 21
        Modular invariant holomorphic observables
        Speaker: Xueqi Li
    • 12:00 PM
      Lunch
    • Flavor Symmetries 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 22
        Near-Critical Behavior in Modular Flavor Models
        Speaker: Dr Xiang-Gan Liu
      • 23
        The flavor of a string

        We explore the flavor symmetries emerging from string model building and their phenomenological consequences. We point out that there is only a small set of admissible flavor symmetries, where both modular and traditional symmetries appear and strong constraints on the flavor representations and other properties gover automatically the effective action. These findings may be considered as top-down guiding principles for bottom-up model building in the search of a solution of the flavor puzzle.

        Speaker: Saul Ramos-Sanchez (UNAM, Mexico)
      • 3:30 PM
        Coffee Break
      • 24
        The Atelistic Standard Model

        With hints from superstring theories, we proceed to a bottom-up construction of an effective theory of the Standard Model Yukawa couplings. Symmetric and asymmetric textures with Grand-Unified constraints with possible flavor groups are discussed.

        Speaker: Pierre Michel Ramond (University of Florida (US))
    • Conference Dinner University Club

      University Club

    • Flavor in Quark Sector 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 25
        Composite matter/antimatter hadron structure indicated experimentally at Texas Petawatt Laser Facility

        It has been theorized that, at the Universe’s inception, there were equal amounts of matter and antimatter. One of the great mysteries of modern physics is the asymmetry between the amount of matter and the amount of antimatter apparent in the Universe. Here it is shown that, when a high-energy laser strikes a gold target, the gold is transmutated to platinum. This experimental result indicates that hadrons are actually composite particles containing both matter and antimatter. The implications of this new model of hadron structure are significant, impacting our understanding of cosmology, proton-proton chain reactions in stars, the expansion of the Universe, and beta decay in radioactive isotopes, among other key topics in physics.

        Speaker: Mark Pickrell
    • Flavor Symmetries 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
    • FLASY2025 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
    • 10:50 AM
      Coffee break 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
    • Flavor at Accelerators 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
    • 12:00 PM
      Lunch
    • Flavor at Accelerators 1010

      1010

      ISEB

      419 Physical Sciences Quad, Irvine, CA 92697
      • 29
        Simulating Heavy Neutral Leptons with General Couplings at Collider and Fixed Target Experiments
        Speaker: Daniel La Rocco
      • 30
        Probing muon g-2 at Forward Detectors at LHC
        Speaker: Roshan Mammen Abraham (University of California Irvine (US))
      • 3:00 PM
        Coffee Break