21st Conference on Flavor Physics and CP Violation (FPCP 2023)

29 May 2023, 08:00 → 2 Jun 2023, 18:00 Europe/Zurich

Amphi Dirac (IP2I - Lyon University)

Nazila Mahmoudi (Universite Claude Bernard Lyon I (FR))

The Flavor Physics and CP Violation (FPCP) conferences are intended for the exchange of new ideas, for presentation of the latest experimental and theoretical results in the areas included in the conference title, and for discussions about future projects in the field. The conference is open to all experimental and theoretical physicists interested in the field.

This conference series results from the merging of the Heavy Flavor Physics Conference and the International Conference on B Physics and CP Violation in 2002.

Warning : If you received emails from travellerpoint(dot)org, please ignore the emails and do not reply nor click on any link given by them. 
More information here.

Link to past conferences: https://fpcp-conferences.web.cern.ch/past-conferences

FPCP_poster.pdf

Monday 29 May

08:30 → 09:00 Registration

09:00 → 09:15 Welcome address

Speaker: Anne Ealet

09:15 → 09:30 Introduction

Speaker: Nazila Mahmoudi (Lyon University)

Introduction_FPCP23_Nazila.pdf

09:30 → 10:30 Heavy quark decays and CKM metrology: I

09:30 Semi-leptonic b->c/u decays - Theory

Speaker: Paolo Gambino

fpcp.pdf

Gambino.mp4

10:00 New b->u and b->c semi-leptonic results at e+e- experiments

Speaker: Svenja Granderath

FPCP_SL_ee_290523.pdf

Granderath.mp4

10:30 → 11:00 Coffee break

11:00 → 12:30 Heavy quark decays and CKM metrology: II

11:00 Semi-leptonic b->c/u (hadron) - LHCb

Speaker: Suzanne Klaver (Nikhef National institute for subatomic physics (NL))

FPCP_SuzanneKlaver.pdf

Klaver.mp4

11:30 Non-leptonic hadron decays at the LHC - ATLAS/CMS

Speaker: Radek Novotny (University of New Mexico (US))

FPCP2023_Novotny.pdf

Novotny.mp4

12:00 New non-leptonic hadron decay results at e+e- experiments

Speaker: Angelo Di Canto (Brookhaven National Laboratory (US))

2023_fpcp.pdf

DiCanto.mp4

12:30 → 14:00 Lunch

14:00 → 16:30 Rare decays of hadrons and leptons: I

14:00 Theory progress in inclusive rare B decays

Speaker: Tobias Hurth (Johannes Gutenberg Universitaet Mainz (DE))

FPCP23_Lyon_final.pdf

Hurth.mp4

14:30 Experimental status of b->s (gamma, e+e-, mu+mu-) at the LHC

Speaker: Riley Henderson (Monash University (AU))

FPCP_b_to_s_ll_gamma_29_05_2023.pdf

Henderson.mp4

15:10 Status and prospects for rare B decays at Belle and Belle II

Speaker: Gaetano de Marino (Jožef Stefan Institute)

deMarino.mp4

GdM_fpcp2023.pdf

15:40 QCD in rare B decays

Speaker: Nico Gubernari (Universität Siegen)

Constraints for hadronic matrix elements in rare B decays.pdf

Gubernari.mp4

16:05 Status of global fits

Speaker: Bernat Capdevila (IFAE)

Capdevila.mp4

FPCP_2023_Talk.pdf

16:30 → 17:00 Coffee break

17:00 → 18:00 Rare decays of hadrons and leptons: II

17:00 Theory of rare charm decays

Speaker: Gudrun Hiller (Technische Universitaet Dortmund (DE))

ghiller-charmtheory-FPCP2023.pdf

Hiller.mp4

17:30 Experimental status of charm decays

Speaker: Liang Sun

RareCharm_FPCP_20230530.pdf

Sun.mp4

Tuesday 30 May

09:00 → 10:30 Rare decays of hadrons and leptons: III

09:00 Review of lattice results

Speaker: Stefan Meinel (University of Arizona)

FPCP2023_Meinel.pdf

Meinel.mp4

09:30 BSM Implications of rare B decay measurements

Speaker: Admir Greljo (Universitaet Bern (CH))

Grejlo.mp4

Greljo-Lyon-short.pdf

10:00 A review of mu->3e, mu->e gamma and mu->e conversions

The observation of lepton flavour violation (LFV) in interactions involving charged leptons would be an unambiguous sign of physics beyond the Standard Model of particle physics. Given that muons can be produced at high intensities, searches for LFV with muons are particularly sensitive.
In a global initiative, ongoing and upcoming experiments are aiming to discover physics beyond the Standard Model in the three golden muon LFV channels: $\mu\to e\gamma$, $\mu\to eee$ and $\mu\to e$ conversion on nuclei. With innovative detector concepts and new muon beam lines, these experiments will be able to investigate muon LFV with sensitivities improved by up to four orders of magnitude compared to past searches in the coming years.
In this talk, the current status of muon LFV searches will be discussed and the ongoing MEG II and DeeMe experiments as well as the upcoming Mu2e, COMET and Mu3e experiments will be presented.

Speaker: Ann-Kathrin Perrevoort (Karlsruhe Institute of Technology - Institute of Experimental Particle Physics)

FPCP2023_Perrevoort.pdf

Perrevoort.mp4

10:30 → 11:00 Coffee break

11:00 → 12:30 Parallel Talks: I - A

11:00 Measurements of $b \to s \mu^+ \mu^-$ transitions at LHCb

Speaker: Jake Reich (University of Bristol (GB))

fpcp_btosmumu_lhcb.pdf

11:15 Rare decays at CMS

Speaker: Luca Guzzi (Universita & INFN, Milano-Bicocca (IT))

fpcp2023.pdf

11:30 Tests of Lepton Flavour Universality and searches for Lepton Flavour Violation at LHCb

Speaker: Sebastian Schmitt (Rheinisch Westfaelische Tech. Hoch. (DE))

FPCP_LFU_LFV_Schmitt.pdf

11:45 Lepton Flavour Universality tests using semileptonic b-hadron decays

Speaker: Guy Henri Maurice Wormser (Université Paris-Saclay (FR))

FPCP2023_wormser.pdf

FPCP2023_wormser.pptx

12:00 Recent Belle II results on lepton universality in semileptonic decays

Speaker: Peter Lewis (University of Bonn)

plewis FPCP 2023 (1).pdf

12:15 New CMS results on heavy flavour production and flavour anomalies

Speaker: Matthew Jones

FPCP_MatthewJones.pdf

11:00 → 12:30 Parallel Talks: I - B

11:00 Implications of $A_4$ modular symmetry on neutrino mass, mixing and leptogenesis with linear seesaw

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 $\tau$. Linear seesaw in this framework is realized with six heavy $SU(2)_L$ singlet fermion superfields and a weighton in a supersymmetric framework. 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 show that the obtained mixing angles and CP violating phase in this framework are compatible with the observed $3\sigma$ range of the current oscillation data. In addition, we also investigate 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 (University of Hyderabad)

FPCP-RM.pdf

11:15 Flavor and lepton number violation in Effective interactions of heavy Majorana neutrinos: collider phenomenology.

Speaker: Lucia Duarte

nuSMEFT_fpcp23_LuciaDuarte.pdf

11:30 Riding the Seesaw: What Higgsstrahlung May Reveal about Massive Neutrinos

Speaker: Adam Lackner (UNSW)

Talk - FPCP 2023.pdf

11:45 Searching for the flavon at current and future colliders

The B3−L2 Z′ model may explain some gross features of the fermion mass spectrum as well as the b -> sll anomalies. The Z' acquires its mass via a TeV-scale scalar field, the flavon (θ), whose VEV spontaneously breaks the family non-universal gauged U(1) symmetry. In this talk, I will discuss the phenomenology of the flavon field. After introducing the model, with an emphasis on its scalar potential, experimental data and perturbativity arguments are used to place bounds upon the parameter space of the model. I will then examine flavonstrahlung (Z'* → Z′ θ production) at hadron and muon colliders as a means to directly produce and discover the flavon. We will see that a 100 TeV FCC-hh or a 10 TeV muon collider would have high sensitivity to flavonstrahlung, whereas the HL-LHC can observe it only in extreme corners of parameter space.

Speaker: Eetu Loisa (University of Cambridge)

Loisa_lyon.pdf

12:00 Is the Muon A Third Family Lepton?

Speaker: Shahram Vatani

Muon3rd.pdf

12:15 Lepton-flavour-violating constraints from triality

Speaker: Gabriela Lichtenstein (UNSW)

FPCPLichtenstein.pdf

11:00 → 12:30 Parallel Talks: I - C

11:00 Bs->J/Psi Phi in ATLAS

Speaker: Alexander Thaler (University of Innsbruck (AT))

athaler_FPCP23.pdf

11:15 Measurement of $B^0$ and $B_s^0$ mixing phases at LHCb

Speaker: Ramon Angel Ruiz Fernandez (IGFAE)

FPCP2023_RamonRuiz.pdf

11:30 Charm physics at BES III

Speaker: Martin Tat (University of Oxford (GB))

FPCP_Conference_presentation_Lyon_30th_May_2023.pdf

11:45 SM prediction for the CP asymmetries in two-body hadronic charm decays

Charm Physics is highly topical in the current flavour landscape, especially after the announcement by LHCb of the measurement of direct CP asymmetries in the separate decays of $D^0\rightarrow K^+K^-$ and consequently $D^0\rightarrow \pi^+\pi^-$, which was preceded by the discovery of direct CP violation in the difference of these two asymmetries. The experimental result is extremely difficult to interpret, as the fully hadronic decays of charm entail significant QCD uncertainties, precluding tests of the Kobayashi-Maskawa mechanism in the up-type sector. In this work we address the problem of the determination of the strong amplitudes involved by considering very general properties of amplitudes, namely unitarity and analyticity. We implement these properties in two-channel dispersion relations which describe the final-state interactions between the pion and kaon pairs. First, using data-driven parameterisations of just the two-pion and two-kaon rescattering phases as input for the dispersion relations we are able to set upper bounds for the amount of CP asymmetry allowed within the SM in either decay of $D$ mesons. In a second work, by also implementing an appropriate parameterisation of the inelasticity between these two channels which reproduces the experimental branching fractions we are able to make a prediction for the CP asymmetries in the aforementioned channels, as well as the isospin-related ones $\pi^0\pi^0$ and $K^0\overline{K^0}$.

Speaker: Eleftheria Solomonidi (IFIC (CSIC, Univ. of Valencia))

FPCP-Solomonidi.pdf

12:00 Recent Belle II results on time-dependent CP violation and charm physics

Speaker: Jake Bennett

2023FPCP_Bennett.pdf

12:15 Mixing and CPV in charm decays at LHCb

Speaker: Serena Maccolini (Technische Universitaet Dortmund (DE))

SMaccolini_30052023_latest.pdf

12:30 → 14:00 Lunch

14:00 → 16:00 Parallel Talks: II - A

14:00 Recent Belle II results on radiative and electroweak penguin decays

Speaker: Jacopo Cerasoli (Université de Strasbourg, CNRS, IPHC, UMR 7178, 67037 Strasbourg, France)

EWPandRadiative_FPCP_30052023.pdf

14:15 A new puzzle in non-leptonic $B$ decays

Speaker: Aritra Biswas (Institut de Física d'Altes Energies (IFAE))

FPCP_2023_Aritra.pdf

14:30 Global fits of b->dll

Speaker: Hector Gisbert

FPCP_2023_HGisbert.pdf

14:45 Synergies of Drell-Yan, beauty, top, and Z observables in global SMEFT fits

The Standard Model Effective Field Theory (SMEFT) is a powerful tool to search for new physics in a model-independent way. We explore the synergies arising from different types of observables in a combined, global SMEFT fit. Specifically, we investigate the combination of top-quark measurements, $b\to s$ flavor changing neutral current transitions, $Z \to b\bar b$ and $Z \to c\bar c$, as well as Drell-Yan data from the LHC. We also examine the impact of Minimal Flavor Violation (MFV) as a flavor pattern in the global fit. We find that the combination of high-pt with flavor physics observables provides powerful synergies that significantly improve the fit and enable more precise tests of various SMEFT operators. By incorporating different observables, we are able to remove flat directions in the parameter space and make inferences on the flavor structure based on the MFV parameterization. In particular, we find that MFV significantly strengthens the constraints in comparison to a flavor-specific approach. Furthermore, our analysis yields a prediction for the dineutrino branching ratios within MFV, which can be tested experimentally at Belle II

Speaker: Lara Nollen (TU Dortmund)

FPCP_2023_Nollen.pdf

15:00 Cabibbo angle anomalies and a global fit to vector-like quarks

Theoretical developments over the last few years have lead to large shifts in the nuclear corrections to superallowed beta decays, albeit with enlarged uncertainties given different theoretical approaches. Nevertheless, this has lead to a shift in the value of $V_{ud}$, and a discrepancy when compared to the value implied by CKM unitarity.
On top of this, improved precision in lattice QCD calculations have revealed another discrepancy between kaon and pion semi-leptonic decays. The combination of these three can be referred as the Cabibbo angle anomalies (since in a two flavour model all three observables should determine a single parameter, the Cabibbo angle).

After summarising the current state of these issues, I will talk about new physics models that modify the coupling of the $W$ boson to quarks as a potential explanation. I will describe the results of a general analysis of all corresponding SMEFT operators, as well as of vector-like quarks, which are UV completions of these EFT scenarios, and how other constraints are important in determining the most likely explanation.

Based upon work in arXiv:2212.06862.

Speaker: Matthew Kirk (ICCUB, Barcelona)

Kirk_CAA.pdf

15:15 New LCSR predictions for b → s hadronic form factors

Deviations from the Standard Model have long been observed in semileptonic B-meson decays, notably b→ sll transitions, triggering speculations on potential New Physics effects in this sector. After the recent update of RK(*) and BR(B(s) → μμ) by the LHCb collaboration, the sole remaining significant deviations from the SM in FCNC B decays are found in the branching ratios of mesonic decays involving b → sμμ and in the angular observable P’5.

Unlike RK( ) and BR(B(s) → μμ), the observable BR(B(s) → Mμμ) (M = K(),φ,…) is theoretically challenging to predict accurately because of non-perturbative QCD contributions, both local and non-local. These contributions yield a theoretical error of order 30%, which can be as large as (sometimes larger than) the experimental uncertainty, and clearly hamper the potential of these observables for discovery.

At low hadronic recoil these form factors can be computed using lattice QCD methods, while the large recoil region requires analytical approaches such as Light Cone Sum Rules (LCSR). We undertake a new calculation of mesonic b → s form factors using LCSR with B-meson Distribution Amplitude. The form factors predictions are then used to compute relevant observables and perform fits of NP scenarios in the WET.

Speaker: Yann Monceaux

Monceaux_talk_parallel_FPCP.pdf

15:30 On the contribution of the electromagnetic dipole operator to the $\bar B_s \to \mu^+\mu^-$ decay amplitude

We report on the construction of a factorization theorem that allows to
systematically include QCD corrections to the contribution of the
electromagnetic dipole operator O7 to the $\bar B_s \to \mu^+\mu^-$
decay amplitude. We elaborate on how the occurring endpoint divergences
appearing in individual momentum regions cancel, and show how the
resulting rapidity logarithms can be isolated by suitable subtractions
applied to the corresponding bare factorization theorem. This allows to
include in a straightforward manner the QCD corrections arising from the
renormalization-group running of the hard matching coefficient, the
hard-collinear scattering kernel, and the $B_s$-meson distribution
amplitude. We estimate the effect numerically using a recently advocated
parameterization of the $B_s$-meson light-cone distribution amplitude.

Speaker: Nicolas Seitz (Siegen University)

slides_Seitz.pdf

15:45 Meson light-front wavefunctions-applications to B transition form factors

Speaker: Mohammad Ahmady

FPCP Lyon2023.pdf

14:00 → 16:00 Parallel Talks: II - B

14:00 CP violation in T2HK and DUNE with non-standard interaction

CP violation in the quark sector has been established, which is described by the CKM phenomenon, and we are entering the precision era as far as Flavor physics is concerned. Accumulation of more data from the LHCb and Belle II experiments will, hopefully, guide us to the pathway to physics beyond the standard model. But the tiny CP asymmetry observed in the quark sector cannot explain the observed baryon asymmetry of the Universe. In this context, it is widely believed that leptonic CP violation could be the salvage. Interestingly, the measured non-zero value of $\theta_{13}$ has opened the door to optimism. Needless to mention, the determination of CP violating phase $\delta_{CP}$ is the prime target of most of the current and upcoming neutrino experiments. Unfortunately, non-standard interaction can be a spoiler for the clean determination of the CP phase. We explore, the effect of non-standard interaction and study NSI effect in the future experiments DUNE and T2HK, taking inputs from the currently running long baseline experiments, i.e., T2K and NOvA. Considering non-standard interaction effects from $e-\mu$ and $e-\tau$ sectors, we find interesting and perceptible results concerning the probabilities, the octant of the $\theta_{23}$, and the CP sensitivity. Therefore, better understanding of the NSI effects will be crucial for the immaculate determination of $\delta_{CP}$.

Speaker: Anjan Giri (IIT Hyderabad)

Giri-FPCP-2023.pdf

14:15 Recent Dark Matter related searches with the $BABAR$ detector.

We present the most recent $BABAR$ searches for Dark-matter states with masses below the electroweak scale.The results are based on the full data set of about 470 $\text{fb}^{-1}$ collected at the $\Upsilon(4S)$ resonance by the $BABAR$ detector at the PEP-II collider.
They include, in particular, a search for decays like $B^{0}\to\psi_{D} {\cal B}$ where $\cal{B}$ is a baryon (proton, $\Lambda$, or $\Lambda_c$ ), which produce the dark matter particle ($\psi_{D}$) and baryogenesis simultaneously. The hadronic recoil method has been applied with one of the $B$ mesons from $\Upsilon(4S)$ decay fully reconstructed, while only one baryon is present in the signal $B$-meson side. The missing mass of signal $B$ meson is considered as the mass of the dark particle $\psi_{D}$. Stringent upper limits on the decay branching fraction are derived in the energy region between 0.5 and 4.2 GeV/c$^2$.

Speaker: Sandrine Emery (Université Paris-Saclay (FR))

EMERY_BABAR_DarkMatter_FPCP2023_final.pdf

14:30 Recent tau and dark-sector results at Belle II

Speaker: Geraldine Raeuber

fpcp_raeuber_v3.pdf

14:45 A new Scattering and Neutrino Detector at the LHC (SND@LHC)

SND@LHC is a compact and stand-alone experiment to perform measurements with neutrinos produced at the LHC in a hitherto unexplored pseudo-rapidity region of 7.2 < 𝜂 < 8.6, complementary to all the other experiments at the LHC. The experiment is located 480 m downstream of IP1 in the unused TI18 tunnel. The detector is composed of a hybrid system based on a 800 kg target mass of tungsten plates, interleaved with emulsion and electronic trackers, followed downstream by a calorimeter and a muon system. The configuration allows efficiently distinguishing between all three neutrino flavours, opening a unique opportunity to probe physics of heavy flavour production at the LHC in the region that is not accessible to ATLAS, CMS and LHCb. This region is of particular interest also for future circular colliders and for predictions of very high-energy atmospheric neutrinos. The physics programme includes studies of charm production, and lepton universality tests in the neutral sector. The detector concept is also well suited to searching for Feebly Interacting Particles via signatures of scattering in the detector target. The first phase aims at operating the detector throughout LHC Run 3 to collect a total of 250 fb−1. The experiment was recently installed in the TI18 tunnel at CERN and has collected its first data in 2022. A new era of collider neutrino physics has started.

Speaker: Daniele Centanni (Universita e INFN sezione di Napoli (IT))

2023_05_30_DCentanni_FPCP2023.pdf

15:00 New results for searches of exotic decays with NA62 in beam-dump mode

We report on the search for visible decays of exotic mediators from data taken in "beam-dump" mode with the NA62 experiment. The NA62 experiment can be run as a "beam-dump experiment" by removing the Kaon production target and moving the upstream collimators into a "closed" position. More than $10^{17}$ protons on target have been collected in this way during a week-long data-taking campaign by the NA62 experiment. We report on new results from analysis of this data, with a particular emphasis on Dark Photon and Axion-like particle Models.

Speaker: Jan Jerhot

jjerhot_300523_21FPCP.pdf

15:15 Searches for baryon number violation in the HIBEAM-NNBAR experiment at the European Spallation Source

The HIBEAM-NNBAR program is a proposed two-stage experiment at the European Spallation Source (ESS) designed to to search for baryon number violation, which is – together with C and CP violation – one of the three fundamental Sakharov conditions to explain the observed baryon asymmetry of the Universe. Taking advantage of the ESS' unique capabilities as the future brightest neutron source, the experiment would make high sensitivity searches for neutrons converting into antineutrons and/or sterile neutrons. In this talk I will present the status of the program and present the plans for the coming years.

Speaker: Bernhard Meirose (Stockholms Universitet + Lunds Universitet)

FPCP23_Meirose_final.pdf

15:30 The n2EDM experiment at PSI.

Electric dipole moments (EDMs) in spin 1/2 particles such as the neutron or the electron are highly sensitive probes for CP violation beyond the Standard Model, which is required in order to fully explain the baryon asymmetry in the universe. n2EDM is an experiment in the commissioning phase at the Paul Scherrer Institute and one leading effort to search for the neutron EDM. The nEDM collaboration set the current limit $|d_n| < 1.8\times 10^{-26} e$cm (C.L. 90%) in our preceding experiment and now plans to improve it by one order of magnitude. This presentation will provide an overview of the n2EDM experimental concept, based on Ramsey's method of separated oscillating fields, and present the current state of the apparatus. Focusing on the most recent progress, we will in particular report on the characterization and optimization of the experiment's magnetic environment.

Speaker: Thomas BOUILLAUD (LPSC, CNRS.)

FPCP2023.pdf

15:45 Results on exotic hadronic resonances with the ATLAS detector

Speaker: Marcella Bona (Queen Mary University of London (UK))

bona_atlas.pdf

14:00 → 16:00 Parallel Talks: II - C

14:00 Recent Belle II results on hadronic B decays

Speaker: Sebastiano Raiz

FPCP_Raiz.pdf

14:15 Rare B meson decays to baryonic final states

Speaker: Pablo Baladron Rodriguez (Universidade de Santiago de Compostela (ES))

FPCP_B_meson_baryonic_decays.pdf

14:30 Model-independent extraction of form-factors and $|V_{cb}|$ in $\overline{B}\to D\ell^m \overline{\nu_\ell}$ with hadronic tagging at $BABAR$

Employing the full $BABAR$ dataset, the first two-dimensional unbinned angular analysis of the semileptonic decay $\overline{B}\to D\ell^m \overline{\nu_\ell}$ is performed in both $q^2$ and lepton helicity angle, making use of the hadronic reconstruction of the tag-side $B$ meson. Here $\ell$ stands for an electron or a muon. A novel data-driven signal-background separation procedure with minimal dependence on simulation is developed, that preserves all multi-dimensional correlations present in the data.
Including input from latest lattice QCD and previously available experimental data, the underlying form-factors are extracted in both model-dependent and independent methods. The CKM matrix element $|V_{cb}|$ and the SM prediction of the lepton-flavor universality violation variable R(D) are extracted.

Speaker: Marcello Rotondo

rotondo_fpcp23_babar_dlnu.pdf

14:45 Recent Belle II results on the CKM parameters |V_cb| and |V_ub|

Speaker: Philipp Horak (HEPHY Vienna)

fpcp_vcb_vub.pdf

15:00 Measurements of charmonia decays from BESIII

Speaker: Han Miao (University of Chinese Academy of Sciences (CN))

FPCP_2023_Lyon.pdf

15:15 Recent quarkonium results at Belle II

Speaker: Alessandro Boschetti

boschetti-FPCP23.pdf

15:30 Latest results on exotic hadrons from CMS

Speaker: Jingqing Zhang (Tsinghua University (CN))

ExoticHadronsFromCMS.pdf

15:45 Heavy flavor production in pp collisions at LHCb

Speaker: Jialu Wang (Peking University (CN))

HeavyFlavourProduction@LHCb_Jialu.pdf

16:00 → 16:30 Coffee break

16:30 → 18:30 Kaon

16:30 Kaon decays: Standard Model tests

Speaker: Marc KNECHT (CNRS)

Knecht.mp4

MK_FPCP_2023_v2.pdf

16:55 Kaon decays: New Physics perspectives

Speaker: Joachim Brod (University of Cincinnati)

Brod.mp4

kaon.pdf

17:20 NA62

Speaker: Giuseppe Ruggiero

FPCP_ruggiero.pdf

Ruggiero.mp4

17:50 KOTO

Speaker: Bob Hsiung (National Taiwan University (TW))

Hsiung.mp4

KOTO_fpcp_hsiung.pdf

18:10 Kaon decays at LHCb

Speaker: Radoslav Marchevski (CERN)

KaonPhysicsAtLHCb_FPCP_RM.pdf

Marchevski.mp4

19:00 → 21:00 Welcome Drink

Wednesday 31 May

09:00 → 10:40 Neutrino physics and PMNS metrology: I

09:00 Neutrino masses and leptonic mixing

Speaker: Stephane Lavignac (IPhT Saclay)

Lavignac_FPCP2023.pdf

Lavignac.mp4

09:25 Latest results on the neutrino oscillations

Speaker: Anatael CABRERA (IJCLab - IN2P3/CNRS)

Cabrera.mp4

NeutrinoOscillation@FPCP-Lyon-May2023-Anatael.pdf

09:50 Open questions at neutrino oscillation experiments

Speaker: Sara Bolognesi (Université Paris-Saclay (FR))

Bolognesi.mp4

bolognesi.pdf

10:15 Neutrino less double beta decays

Speaker: Stefan Schoenert

0nbb_katrin_schoenert.pdf

Schonert.mp4

10:40 → 11:10 Coffee break

11:10 → 12:30 Neutrino physics and PMNS metrology: II

11:10 Beyond 3 SM neutrinos

Speaker: Julia Gehrlein (CERN)

gehrlein_fcpc_2023.pdf

Gehrlein.mp4

11:35 Results and perspectives from short baseline neutrino experiment

Speaker: Mark Ross-Lonergan

markrosslonergan_LyonFPCP_23.pdf

Ross-Lonergan.mp4

12:00 High-energy astrophysical neutrinos

Speaker: Juan Pablo Yanez Garza

2023_fpcp_icecube_yanez3.pdf

Yanez.mp4

12:30 → 14:00 Lunch

14:00 → 20:00 Excursion

Thursday 1 June

09:00 → 10:30 Exotic quarkonium-like states and pentaquarks

09:00 Theory of exotic matter

Speaker: Richard Lebed

FPCP_Lebed.pdf

Lebed.mp4

09:30 Spectroscopy at the LHC

Speaker: Vitalii Lisovskyi (EPFL - Ecole Polytechnique Federale Lausanne (CH))

FPCP2023_v2.5.pdf

Lisovskyi.mp4

10:00 Spectroscopy at e+e- colliders

Speaker: Zhiqing Liu (Shandong University)

Spectroscopy_Zhiqing_v2.pdf

ZhiqingLiu.mp4

10:30 → 11:00 Coffee break

11:00 → 12:00 Higgs-flavour

11:00 Higgs and flavour (theory)

Speaker: Yotam Soreq (Technion- Israel Institute of Technology (IL))

2023_06_FPCP_2023.pdf

Soreq.mp4

11:30 Higgs LFV and flavour

Speaker: Ka Wa Ho (University of Notre Dame (US))

FPCV_v5.pdf

Ho.mp4

12:00 → 12:30 CP violation in hadrons and leptons: I

12:00 Experimental review of nEDM measurement

Speaker: Chen-Yu Liu (Indiana University)

2023_6_FPCP2023_nEDM_Liu.pdf

2023_6_FPCP2023_nEDM_Liu.pdf

2023_6_FPCP2023_nEDM_Liu.pptx

ChenYuLiu.mp4

12:30 → 14:00 Lunch

14:00 → 16:00 CP violation in hadrons and leptons: II

14:00 CP violation in B-decays, CKM tests, D-Dbar, etc

Speaker: Alexander Lenz

FPCP2023_compressed.pdf

Lenz.mp4

14:30 Strong CP problem vs flavor experiments

Speaker: Diego Redigolo (CERN-INFN Florence)

CPproblem_flavor.pdf

Redigolo.mp4

15:00 New time-dependent CPV measurements at e+e- experiments

Speaker: Justin Skorupa

pres.pdf

Skorupa.mp4

15:30 New CPV measurements at LHC

Speaker: Valeriia Lukashenko (Nikhef National institute for subatomic physics (NL))

FPCP2023_CPV_VLukashenko.pdf

Lukashenko.mp4

16:00 → 16:30 Coffee break

16:30 → 18:00 Future facilities

16:30 The PIONEER experiment to explore lepton universality using rare pion decays

Speaker: Toshiyuki Iwamoto

fpcp_iwamoto_2023.pdf

Iwamoto.mp4

16:50 Future of Belle II

Speaker: Jerome Baudot (IPHC - Strasbourg)

Baudot.mp4

futureBelleII-JBaudot-fpcp23.pdf

17:10 Super tau charm factory

Speaker: Xiaocong Ai (Zhengzhou University)

Ai.mp4

STCF_FPCP2023_20230601.pdf

17:30 LHCb upgrade and review of LLP experiments

Speaker: Federico Leo Redi (CERN)

fredi-FPCP-202306.pdf

Redi.mp4

19:00 → 23:00 Conference dinner

Friday 2 June

08:45 → 09:45 Muon g-2

08:45 Status review of g-2 (theory)

Speaker: Gilberto Colangelo (Universität Bern)

Colangelo.mp4

g-2_fpcp-2023.pdf

09:15 Status and plans of the Fermilab (and J-PARC)

Speaker: Marco Incagli (Universita & INFN Pisa (IT))

incagli_FPCP23.pdf

Incagli.mp4

09:45 → 10:45 DM-flavour

09:45 Dark matter and flavour

Speaker: Luc Darme

Darme.mp4

DM_Flavour_FPCP_vpdf.pdf

10:15 Dark sector at flavour experiments

Speaker: Torben Ferber (KIT - Karlsruhe Institute of Technology (DE))

2023_06_02_FCPC_Ferber.pdf

Ferber.mp4

10:45 → 11:15 Coffee break

11:15 → 12:45 Interplay between flavor and high-pT physics at the LHC

11:15 LFU/LFV in precision measurement (EW, top)

Speaker: Reza Goldouzian (University of Notre Dame (US))

Goldouzian.mp4

Reza_FPCP2023_v2.pdf

11:45 B-physics connection with high-pT

Speaker: Nishita Desai (Tata Institute of Fundamental Research)

Desai.mp4

FPCP2023-desai.pdf

FPCP2023-desai.pdf

12:15 BSM searches relevant for flavour physics

Speaker: Vojtech Pleskot (Charles University (CZ))

BSM searches relevant for flavour physics-4.pdf

Pleskot.mp4

12:45 → 13:00 Closeout and announcement of FPCP2024

Speakers: Francesca Di Lodovico (University of London (GB)), Phat Srimanobhas (Chulalongkorn University (TH))

DiLudovico.mp4

FPCP2024_Announcement_Bangkok-opt.pdf

FPCP2June2023.pdf

13:00 → 14:00 Lunch