Young Scientists Meeting of the CRC TRR 257

Europe/Berlin
Seminarzentrum (Campus Unteres Schloss | University of Siegen)

Seminarzentrum

Campus Unteres Schloss | University of Siegen

Obergraben 25 57072 Siegen
Eleftheria Malami, Magnus Schaaf (RWTH Aachen University), Nicoline Hemme (Karlsruher Institut für Technologie)
Description

The Young Scientists Meeting is a three-day meeting for all members of the Collaborative Research Center (CRC) TRR 257. The scientific talks will be presented by young scientists (PhD students or PostDocs) and they will focus on the various projects of our CRC. This will give all participants the opportunity to gain a better overview of these projects and allow the speakers to present their research in front of a large audience. Besides scientific talks, this meeting also includes a Workshop to promote well-being within the research community and a talk about funding opportunities.

The meeting also provides an excellent opportunity for scientific exchange between projects involved in several sites. Therefore every member of the CRC TRR 257 is invited to participate.

In addition to the Young Scientists Meeting, there will be an event in Siegen to celebrate the 20th anniversary of TP1. Interested participants have the opportunity to extend their stay and combine both meetings.

The Young Scientists Meeting 2023 will be held in person at the University of Siegen from October 16 to 18, 2023. For the accommodation, see the Information for Participants page.


Important Deadlines:

Abstract submission:   17th September 2023
Registration:  24th September 2023 

Participants
  • Aleksey Rusov
  • Alessandro Morandini
  • Alexander Lenz
  • Alexei Pivovarov
  • Ali Mohamed
  • Anastasia Boushmelev
  • Andrey Pikelner
  • Anshika Bansal
  • Anton Olsson
  • Augustin Vestner
  • Daniel Stremmer
  • Dennis Horstmann
  • Eleftheria Malami
  • Felix Eschment
  • Felix Wilsch
  • GIlberto Tetlalmatzi-Xolocotzi
  • Gudrun Heinrich
  • Guido Bell
  • Hantian Zhang
  • Houssem Amami
  • Ilija Milutin
  • Ivan Novikov
  • Ivan Pedron
  • Jakob Müller
  • Janosch Borgulat
  • Jonas Kohnen
  • Jonas Spinner
  • Kevin Brune
  • Lena Rathmann
  • Lisong Chen
  • Luigi Favaro
  • Magnus Schaaf
  • Malgorzata Worek
  • Marco Bonetti
  • Marco Vitti
  • Maria Laura Piscopo
  • Marie Hein
  • Marius Höfer
  • Martin Lang
  • Matthew Black
  • Matthias Steinhauser
  • Mingming Long
  • Minos Reinartz
  • Méril Reboud
  • Nicoline Hemme
  • Nikita Schmal
  • Nikolaos Dimitrakopoulos
  • Oliver Witzel
  • Pascal Reeck
  • Prem Agarwal
  • Sauro Carlotti
  • Sergei Makarov
  • Sergey Volkov
  • Surabhi Tiwari
  • Sven Yannick Klein
  • Tim Kretz
  • Tobias Huber
  • Tom Schellenberger
  • Tom Tong
  • Vladyslav Shtabovenko
  • Wolfgang Kilian
  • Zachary Wüthrich
    • 11:00 11:30
      Registration 30m
    • 11:30 11:45
      Opening Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Conveners: Gudrun Heinrich (KIT), Thomas Mannel (Siegen University)
    • 11:45 12:45
      CRC Talk Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Alexander Lenz (Siegen University)
      • 11:45
        The current status of flavour physics - Theory challenges and prospects for the LHC 1h
        Speaker: Thomas Mannel (Siegen University)
    • 12:45 13:45
      Lunch Break 1h Mensa

      Mensa

      Campus Unteres Schloss | University of Siegen

      Obergraben 18 57072 Siegen
    • 13:45 15:45
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Maria Laura Piscopo (University of Siegen)
      • 13:45
        Using Gradient Flow to Renormalise Matrix Elements for Meson Mixing and Lifetimes 30m

        Neutral meson mixing and meson lifetimes are theory-side parametrised in terms four-quark operators which can be determined by calculating weak decay matrix elements using lattice QCD.
        While calculations of meson mixing matrix elements are standard, determinations of lifetimes typically suffer from complications in renormalisation procedures because dimension-6 four-quark operators can mix with operators of lower mass dimension and, moreover, quark-line disconnected diagrams contribute.

        We present work detailing the idea to use fermionic gradient flow to non-perturbatively renormalise matrix elements describing meson mixing or lifetimes, which later is to be combined with a perturbative calculation to match to the $\overline{\rm MS}$ scheme.

        Speaker: Matthew Black (University Siegen)
      • 14:15
        Progress in N3LO zero-jettiness soft functions calculation 30m

        The increasing accuracy of measurements at the LHC requires a transition from NNLO to N3LO in QCD theory predictions. The growing complexity of the IR-divergencies structure at N3LO order requires developing new schemes for treating IR-divergencies. One of the promising solutions is the N-jettiness slicing scheme.
        One of the last missing ingredients for applying this scheme at N3LO order is a 0-jettiness soft function defined as phase-space integral with the integration domain constrained by several theta functions.
        The complexity of the analytical calculation of the 0-jettiness soft function due to the presence of integrals with theta functions requires the development of new calculation methods.
        In this talk, we will discuss the application of modern techniques of multi-loop calculations to integrals with Heaviside theta functions and report recent progress in calculating both triple-real and real-virtual corrections to N3LO zero-jettiness soft-function in QCD.

        Speaker: Andrey Pikelner (TTP KIT)
      • 14:45
        Higgs Production With Full Quark Mass Dependence 30m

        We present new results for the Higgs production cross section in the gluon fusion channel at NNLO in QCD with the inclusion of top, bottom and charm mass effects. With these results one of the largest remaining uncertainties on the Higgs production cross section is eliminated.

        Speaker: Tom Schellenberger (RWTH Aachen)
      • 15:15
        Dimension-6 HQET Sum Rules for Beyond the Standard Model 30m

        Precise determination of hadronic matrix elements is crucial for interpreting possible deviations from the Standard Model observed in flavor physics experiments. While lattice QCD provides first-principles calculations, current results are still limited to a subset of the operators that may appear in theories of new physics. The sum rule approach employed here allows for a complementary determination of matrix elements directly from QCD, with theoretical uncertainties that can be systematically improved order-by-order in perturbation theory. The Standard Model hadronic matrix elements of dimension-six $\Delta F=0,2$ operators have previously been determined, and have been shown to be competitive with lattice results. We intend to extend these results to include the full set of four-quark QCD operators which may appear Beyond the Standard Model, and for which no lattice results exist yet. We thus include operators with Dirac structures which have not previously been considered in a sum rules analysis reported in the literature. This will provide for the first time bag parameter results which can increase the precision of a wide variety of new physics theories. The bag parameter results will be determined using HQET sum rules for three-point correlators, which requires a three-loop computation. In addition there is a one-loop computation of the QCD-HQET matching required.

        Speaker: Zachary Wüthrich (Siegen)
    • 15:45 16:15
      Coffee Break 30m Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
    • 16:15 18:15
      Workshop Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      • 16:15
        How to be a Kind and Happy Researcher 2h
        Speaker: Emma Geoffray (Heidelberg University)
    • 19:30 21:30
      Social Program: Movie Screening Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen

      As part of our social program and addressing the topics of diversity, equity and inclusivity in science, we will screen the movie "Hidden Figures".

    • 09:00 10:30
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      • 09:00
        Inclusive $B\to X_c\ell\bar{\nu}$ to order 1/m^5 and the precision determination of Vcb 30m

        The Heavy Quark Expansion has become the major tool for precision calculations for inclusive heavy hadron decays. The HQE is an expansion in $1/m_b$. Recently, moments of the dilepton spectrum of inclusive $B\to X_c\ell\bar{\nu}$ were used to precisely extract the CKM matrix element $V_{cb}$. Usually, one assumes that the charm quark is heavy, leading to $\Lambda_{\rm{QCD}}^n/m_c^n$-contributions. A consistent power counting therefore needs to be set up. Numerically, we find that $m_c^2\sim m_b\Lambda_{\rm{QCD}}$. Therefore, $m_c^2$ should be counted as one power of $m_b$. Consequently, we need to include $1/m_b^3\cdot1/m_c^2$-contributions to complete the existing calculation at $\mathcal{O}(1/m_b^4)$, which we will present here.

        Speaker: Mr. Ilija Milutin (University of Siegen)
      • 09:30
        NLO electroweak corrections to gg -> HH 30m

        We consider the next-to-leading order electroweak corrections to the Higgs boson pair productions in gluon fusion. This requires the computation of two-loop four-point amplitudes with massive internal particles such as top quarks, Higgs and gauge bosons. We perform analytic calculations both in the high-energy and large top-quark mass limits. In particular, we show that our high energy expansion can even yield precise results above $p_t≈120$ GeV. The technical challenges are described and results for the virtual corrections are presented.

        Speaker: Hantian Zhang (Karlsruhe Institute of Technology)
      • 10:00
        Non-factorizable corrections to Higgs production in Vector Boson Fusion 30m

        In this talk, I will present two improvements in the understanding of the non-factorizable corrections to Higgs production in VBF. One is to go beyond eikonal approximation and obtain the first power correction. Another is to address the problem of strong dependence on the renormalization scale of the leading eikonal corrections. The new sub-leading contribution will change the current estimate of the non-factorizable corrections to VBF cross section by about 20 percent. Furthermore, including the effects of the running coupling constant reduces the scale dependence in cross section and kinematic distributions.

        Speaker: Dr. Mingming Long (KIT-TTP)
    • 10:30 11:00
      Coffee Break 30m Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
    • 11:00 12:30
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Gilberto Tetlalmatzi-Xolocotzi (University of Siegen)
      • 11:00
        Top-quark pair production with two isolated photons at NLO QCD 30m

        In this talk we present the calculation of NLO QCD corrections to $pp\to t\bar{t}\gamma\gamma$ in the dilepton and lepton+jet decay channel. The top-quark and W-boson decays are performed in the narrow width approximation preserving spin correlations. We discuss the size of NLO QCD corrections at the integrated and differential fiducial level. In addition, we investigate the distribution of photon bremsstrahlung in $t\bar{t}$ production and its decays, as well as the mixed contribution in which photons occur simultaneously in the production and decays of the top-quark pair.

        Speaker: Daniel Stremmer (RWTH Aachen University)
      • 11:30
        Linear power corrections to hadron collider processes with top-quarks 30m

        In this talk the $\mathcal{O}(\Lambda_{QCD})$ corrections to processes with top-quarks will be discussed. A general method to compute these corrections based on renormalon calculus and the Low-Burnett-Kroll theorem will be discussed. We will show that linear power corrections vanish for the total cross-section. We also compute such corrections to top-quark kinematic distributions and show that they can be as large as a percent in certain kinematic regions.

        Speaker: Sergei Makarov (TTP KIT)
      • 12:00
        Four top final states with NLO accuracy in perturbative QCD: 4 lepton decay channel 30m

        In this talk, I will present NLO QCD results for the process $pp\rightarrow tt\overline{t}\overline{t}$, focusing on the 4-lepton channel at the LHC with $\sqrt{s}=13.6$ TeV. In our calculation, the top quark and the W boson are treated in the Narrow Width Approximation (NWA). We are analyzing our findings in two distinct situations: a full one where we have incorporated QCD corrections during both the production and decay processes of the top quarks, and another where we have only considered QCD corrections at the production stage, assuming that all unstable particles decay with LO accuracy.

        Speaker: Mr. Nikolaos Dimitrakopoulos (RWTH Aachen University)
    • 12:30 13:30
      Lunch Break 1h Mensa

      Mensa

      Campus Unteres Schloss | University of Siegen

      Obergraben 18 57072 Siegen
    • 13:30 14:30
      CRC Talk Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Tobias Huber (Siegen U)
      • 13:30
        Staying in Academia: Fellowship, Grants & More to Know 1h
        Speaker: Malgorzata Worek (RWTH Aachen University)
    • 14:30 15:00
      Coffee Break 30m Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
    • 15:00 16:30
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Vladyslav Shtabovenko (University of Siegen)
      • 15:00
        Subleading effects in soft-gluon emission at one-loop in QCD 30m

        While the knowledge of the leading-power behaviour of QCD amplitudes in the soft limit is crucial for the construction of subtraction schemes, next-to-leading power (NLP) results can be used to increase precision, which has successfully been applied to QED calculations. In this talk, I will present a universal expression for the soft limit of one-loop QCD amplitudes at NLP, that is, an extension of the LBK theorem to the loop level. The calculation was done with the Expansion by Regions method. An NLP collinear expression for general tree-level amplitudes was obtained along the way while analysing the collinear region.

        Speaker: Felix Eschment (RWTH Aachen - TTK)
      • 15:30
        Numerical Multi-Loop Calculations with pySecDec 30m

        We present a new version of pySecDec, a program to calculate multi-loop integrals numerically. The main theory and underlying algorithms will be explained, along with an overview of new features from the latest release. In addition, examples and timings for multi-loop integrals needed for LHC precision physics will be provided.

        Speaker: Anton Olsson (Karlsruhe Institute of Technology)
      • 16:00
        NLO QCD predictions for off-shell $t\bar{t}W$ production in association with a light jet at the LHC 30m

        We present full off-shell NLO QCD results for $pp \to t\bar{t}W^+\, j+X$. We concentrate on the multi-lepton decay channel at the LHC with $\sqrt{s}= 13$ TeV. In our calculation off-shell top quarks and gauge bosons are described by Breit-Wigner propagators, furthermore, double-, single- as well as non-resonant top-quark contributions along with all interference effects are consistently incorporated at the matrix element level. We present results for both integrated and differential fiducial cross sections for various renormalisation and factorization scales and different PDF sets. Lastly we investigate the effects of the additional jet activity by comparing $pp\to e^+\nu_e\,\mu^-\bar{\nu}_\mu\,\tau^+\nu_\tau\,b\bar{b}\,j+X$ and $pp\to e^+\nu_e\,\mu^-\bar{\nu}_\mu\,\tau^+\nu_\tau\,b\bar{b}+X$.

        Speaker: Minos Reinartz (RWTH Aachen University)
    • 16:30 17:00
      Coffee Break 30m Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
    • 17:00 18:00
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Magnus Schaaf (RWTH Aachen University)
      • 17:00
        Implications of the B-Mesogenesis on the Phenomenological Observables of B Mesons 30m

        The aim of our work is to explore the implications of the Baryogenesis model,
        which is based on the B-Mesogenesis paradigm proposed by G. Elor, M. Escudero, and A. E. Nelson, on the phenomenological observables of the Bmeson. Specifically, we focus on analyzing the non-standard decay channels of the B-meson into a SM baryon and a dark sector antibaryon, which were proposed by the model to address the problems of matter-antimatter asymmetry and the origin of dark matter in the Universe. Building upon recent work by Alonso-Álvarez, G. Elor, M.Escudero [PRD 104, 035028 (2021),arXiv:2101.02706], where the model is further scrutinized, we employ the Heavy Quark Expansion (HQE) framework to investigate the contributions of these new decay channels to the ratio $τ (B+)/τ (Bd)$ as well as to mixing observables, such as $∆M, ∆Γ,$ and $a_{sl}$, in the B systems.

        Speaker: Ali Mohamed (Siegen University)
      • 17:30
        Phenomenological Aspects of Flavoured Majorana Dark Matter 30m

        As the non-observation of simple WIMP candidates puts these models under severe pressure, we introduce an extended dark sector with a non-trivial flavor structure. The model extends the Standard Model by a Majorana flavor triplet and a scalar mediator which couples Dark Matter to right-handed up-type quarks. This allows for a single new source of flavor and CP violation. The rich phenomenology of this model can be studied by combining constraints of various probes. Furthermore, we explore the possibility of a conversion-driven freeze-out. This can enhance the relic abundance and therefore open up new regions in the parameter space.

        Speaker: Lena Rathmann
    • 19:30 21:30
      Conference Dinner 2h Hammerhütte

      Hammerhütte

      Kirchweg 79 57072 Siegen
    • 09:00 10:00
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Oliver Witzel (Universität Siegen)
      • 09:00
        Top-quark loops for precision Higgs physics 30m

        Theoretical calculations for Higgs-related processes at the LHC have reached an impressive level of accuracy. One of the technical challenges that still need to be addressed is the computation of two-loop box diagrams with massive internal lines, e.g. those arising in the NLO QCD corrections for $gg \to ZH$ and $gg \to ZZ$.
        In this talk I will present a method for approximating these diagrams analytically, via an expansion in terms of a small transverse momentum. Combining this approximation with a complementary expansion in the high-energy limit, the two-loop amplitude can be efficiently evaluated over the complete phase space.

        Speaker: Marco Vitti (Karlsruhe Institute of Technology)
      • 09:30
        Higgsstrahlung and Higgs production beyond the Standard Model 30m

        The status of Higgsstrahlung and single Higgs production cross-section predictions with the program SusHi is presented. It includes predictions in the Standard Model but also other models like the MSSM. A discussion of the calculation of total cross sections is followed by a description of the calculation of the invariant mass distribution of the Higgsstrahlung cross section. Lastly, methods for the implementation of the calculation of fully differential cross sections as a possible upcoming feature of SusHi is elaborated which results in a short introduction to subtraction schemes.

        Speaker: Sven Yannick Klein (TTK - RWTH Aachen University)
    • 10:00 10:30
      CRC Talk Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      • 10:00
        News from the Outreach Team 30m
        Speaker: Anastasia Boushmelev
    • 10:30 11:00
      Coffee Break 30m Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
    • 11:00 12:30
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Felix Wilsch (University of Zurich)
      • 11:00
        Rare $B_s \rightarrow l^+ l^-$ decays in a two-Higgs-doublet model with Three Spurions 30m

        Leptonic decays of neutral B mesons provide an excellent probe of physics beyond the Standard Model, due to the absence of tree-level flavour-changing neutral currents in the Standard Model and the corresponding smallness of the branching ratio. We present a two-Higgs-doublet model in which flavour-changing neutral Higgs couplings to up-type quarks can lift part of the SM suppression. The model contains three Yukawa spurions, allowing to systematically suppress FCNC couplings in the down-type quark sector. Within this model, the leading contributions to the scalar and pseudoscalar Wilson coefficients are calculated through next-to-leading order in QCD. Several experimental constraints from other $|\Delta B| = 1$ and $|\Delta B| = 2$ processes are discussed.

        Speaker: Martin Lang (Department of Physics)
      • 11:30
        Looking for Massive ALPs from SN1987A with Cherenkov Detectors 30m

        In this talk I present new constraints on the axion-nucleon coupling $g_{aNN}$ for massive ALPs using SN1987A. Standard arguments that restrict the energy loss of core-collapse supernovae are used, and novel bounds from modern water Cherenkov detectors are derived for axion masses in the MeV range. Recasting the invisible nucleon decay data of SNO+, a new exclusion limit can be found in the range of $7.7 \times 10^{-7} \, \mathrm{GeV}^{-1}$ to $5.0 \times 10^{-4} \, \mathrm{GeV}^{-1}$ for masses between 170 keV and 400 keV. Thus, water Cherenkov detectors allow to extend the constraints by roughly three additional orders of magnitude.

        Speaker: Mr. Tim Kretz (Karlsruher Institut für Technologie (KIT - TTP))
      • 12:00
        Axion-like particle reconstruction and experimental design with simulation-based inference 30m

        Axion-like particles (ALPs) arise in BSM theories with global symmetry breaking. Beam-dump experiments have been constructed and proposed to look for them at the sub-GeV scale. Given a successful signal observation, would we be able to reconstruct the ALP properties even from inaccurate detectors? We use a simulation-based inference approach to reconstruct the posterior probability of the ALP parameters. The derived posterior is both narrow and reliable. Moreover, the neural network can be quickly trained for different detector properties, making it an ideal framework for optimizing experimental design

        Speaker: Dr. Alessandro Morandini (KIT, IAP)
    • 12:30 13:30
      Lunch Break 1h Mensa

      Mensa

      Campus Unteres Schloss | University of Siegen

      Obergraben 18 57072 Siegen
    • 13:30 15:30
      Young Scientists Talks Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
      Convener: Alessandro Morandini (KIT, IAP)
      • 13:30
        Back to the Roots: Tree-Based Algorithms for Weakly Supervised Anomaly Detection 30m

        Weakly supervised methods have emerged as a powerful tool for model agnostic anomaly detection at the LHC. While these methods have shown remarkable performance on specific signatures such as di-jet resonances, their application in a more model-agnostic manner requires dealing with a larger number of potentially noisy input features. We show that neural networks struggle with noisy input features and that this issue can be solved by using boosted decision trees. Overall, boosted decision trees have a superior performance in the weakly supervised setting than neural networks. Additionally, we significantly improve the performance by using an extended set of features.

        Speaker: Marie Hein (RWTH Aachen University)
      • 14:00
        Anomalies, Representations and Self-Supervision 30m

        Autoencoders are an effective analysis tool for model-agnostic searches at the LHC. Unfortunately, it is known that their OOD detection performance is not robust and heavily depends on the compressibility of the signals. Even if a neural network can learn the physical content of the low-level data, the gain in sensitivity to features of interest can be hindered by redundant information already explainable in terms of known physics. This poses the problem of constructing a representation space where known physical symmetries are manifest and discriminating features are retained. I will present ideas in both directions. I will introduce a Machine Learning framework, known as Contrastive Learning, that allows for the definition of observables invariant to transformations and show how to use them for Autoencoders-based anomaly detection.

        Speaker: Luigi Favaro (ITP Heidelberg)
      • 14:30
        Diagrammatic resummation of double logarithms in $B_c \to \eta_c$ form factors 30m

        Exclusive $B$-decays are sensitive to contributions from new physics and can thus be used to test the Standard Model. At large hadronic recoil Soft-Collinear Effective Theory is the appropriate theory to describe the QCD dynamics and to resum logarithmic corrections to all orders in perturbation theory. However, since the relevant hadronic matrix elements are power suppressed, the factorisation of soft and collinear contributions is spoilt by endpoint divergences. We therefore resort to diagrammatic resummation techniques to derive the double-logarithmic series of the “soft-overlap” contribution to $B_c \to \eta_c$ transition form factors, assuming the scale hierarchy $m_b \gg m_c\gg \Lambda_{\rm QCD}$. We find that the leading double logarithms arise from a peculiar interplay of soft-quark “endpoint logarithms” from ladder diagrams with energy-ordered spectator-quark propagators, as well as standard Sudakov-type soft-gluon corrections. We elucidate the all-order systematics, and show that their resummation proceeds via a novel type of integral equations.

        Speaker: Dennis Horstmann (Siegen University)
      • 15:00
        Precision tests of the Standard Model in global SMEFT analyses: Fitting with a CLEW 30m

        Recent examinations of the semileptonic charged-current have underscored discrepancies with the Standard Model, particularly in the Cabibbo Angle Anomaly, which demonstrates a 3-sigma deviation. We undertake a rigorous analysis using SMEFT to shed light on potential BSM sources of the Cabibbo anomaly. By integrating Collider processes, Low-energy processes, and EWPO, we establish a holistic CLEW framework, dedicated to a flavor-assumption-independent analysis sidelining severe phenomenological constraints. We have also incorporated the Akaike Information Criterion, which promotes a model that not only aligns well with experimental data but also circumvents unnecessary complexities, accentuating the challenges and prospective avenues for model-independent global analyses.

        Speaker: Tom Tong (University of Siegen)
    • 15:30 15:55
      Closing Seminarzentrum

      Seminarzentrum

      Campus Unteres Schloss | University of Siegen

      Obergraben 25 57072 Siegen
    • 15:55 16:00
      Farewell 5m
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