Jornadas científicas IFIC: Origin of mass. L1 Higgs Force

2 dic. 2024 9:30 → 3 dic. 2024 13:45 Europe/Madrid

1001-Primera-1-1-1 - Paterna. Seminario (Universe)

1001-Primera-1-1-1 - Paterna. Seminario

Universe

Arcadi Santamaria (IFIC, Univ. Valencia-CSIC), Germán Rodrigo (IFIC UV-CSIC), Luca Fiorini (IFIC / U. Valencia - CSIC), Salvador Marti Garcia (IFIC-Valencia (UV-CSIC))

Descripción

Topic: Origin of mass. L1 Higgs Force

Time: Dec 2, 2024 10:00 AM Madrid

Meeting ID: 615 3240 6453

Security Passcode: 459778

Link:

https://cern.zoom.us/j/61532406453?pwd=bvs9wcntPGD9sI8iHtKl4T1mX8qQeh.1

lunes, 2 diciembre
- lun., 2 dic.
- mar., 3 dic.
- 10:00 → 10:24
  
  Legacy Run 2 measurements of the Higgs cross-section in tautau and other final stateswith ATLAS (24+6) 24m
  
  The IFIC ATLAS group has been one of the main contributors to the recently released results of the Higgs boson measurements in the H->tautau channel using the Run-2 dataset (arXiv:2407.16320). This new analysis includes a significant extension of the measurements in the Simplified Template Cross-Section (STXS) framework for VBF and ttH production. Furthermore, the first ATLAS H->tautau unfolded fiducial differential measurement is performed in the VBF phase space, whose results are interpreted within the SMEFT framework. THis result will be discussed along with other ATLAS cross-section measurements
  
  Ponente: Ximo Poveda (IFIC (CSIC-UV))
  
  Line1_Htautau_20241202.pdf
- 10:30 → 10:54
  
  VBFNLO 3.0 Release (24+6) 24m
  
  We present the latest release of VBFNLO, a parton-level Monte Carlo generator. This update introduces several key enhancements: parallel processing capabilities through MPI, additional physics processes, unitarization procedures for Effective Field Theories (EFTs), three new dimension-8 operators, and implementation of the Binoth Les Houches Accord (BLHA) interface for integration with event generators such as Herwig.
  
  VBFNLO continues to serve as a valuable tool for LHC experimental collaborations, offering both verification capabilities for modern automatic Monte Carlo generators and superior computational efficiency in many processes.
  
  In the context of Higgs physics, we demonstrate new results for Vector Boson Scattering (VBS) processes Hjj and Hjjj at NLO QCD accuracy matched to parton showers, and analyze their comparison with fixed-order calculations.
  
  Ponente: Iván Rosario
  
  vbfnlo-3.0.pdf
- 11:00 → 11:12
  
  Probing Gauge-Higgs Unification models at the ILC with quark-antiquark forward-backward asymmetry at center-of-mass energies above the $Z$ mass (12+3) 12m
  
  The International Linear Collider (ILC) will allow the precise study of $e^{+}e^{-}\rightarrow q\bar{q}$ interactions at different center-of-mass energies from the $Z$-pole to 1 TeV.
  In this paper, we discuss the experimental prospects for measuring differential observables in $e^{+}e^{-}\rightarrow b\bar{b}$ and $e^{+}e^{-}\rightarrow c\bar{c}$ at the ILC baseline energies, 250 and 500 GeV.
  The study is based on full simulation and reconstruction of the International Large Detector (ILD) concept.
  Two gauge-Higgs unification models predicting new high-mass resonances beyond the Standard Model are discussed.
  These models predict sizable deviations of the forward-backward observables at the ILC running above the $Z$ mass and with longitudinally polarized electron and positron beams.
  The ability of the ILC to probe these models via high-precision measurements of the forward-backward asymmetry is discussed.
  Alternative scenarios at other energies and beam polarization schemes are also discussed, extrapolating the estimated uncertainties from the two baseline scenarios.
  
  Ponente: Jesús Pedro Márquez Hernández
  
  IFIC_GHU_talk_021224.pdf
- 11:15 → 11:45
  
  Coffee Break 30m
- 11:45 → 12:09
  
  Bounds on top operators in the SMEFT from recent LHC measurements (24+6) 24m
  
  The recent measurements of the Large Hadron Collider and legacy results from previous colliders allow to probe the couplings of the top quark in the context of Effective Field Theories (EFT), such as the Standard Model EFT (SMEFT). We present the results of a global SMEFT fit including those recent experimental results. We show that LHC Run 2 data allow, for the first time, to overconstrain the two-fermion and $qqt\bar{t}$ four-fermion operator coefficients and yields competitive bounds. We compare the current bounds to projections for the HL-LHC and future lepton colliders, that can yield powerful constraints.
  
  Ponente: Maria Moreno Llácer (IFIC (CSIC-UV), Valencia)
  
  MariaMorenoLlacer_EFTfitsTopCouplings_Dec2024.pdf
- 12:15 → 12:39
  
  Light states in real multi-Higgs models with spontaneous CP violation (24+6) 24m
  
  In models with extended scalar sectors consisting of multiple Higgs doublets that trigger spontaneous electroweak symmetry breaking, it might be expected that the abundance of dimensionful quadratic couplings in the scalar potential could allow for a regime where, apart from the would-be Goldstone bosons and a neutral Higgs-like state, all new scalars have masses much larger than the electroweak scale. In the case of models where CP invariance holds at the lagrangian level but is
  broken by the vacuum, we show that such a reasonable expectation does not hold. When perturbativity requirements are placed on the dimensionless quartic couplings, the spectrum of the new scalars includes one charged and two additional neutral states whose masses cannot be much larger than the electroweak scale
  
  Ponente: Miguel Nebot (U. of Valencia - IFIC)
  
  Nebot_IFIC-L1_LightStates_Real-nHDM.pdf
- 12:40 → 15:00
  
  Break 2h 20m
- 15:00 → 15:30
  
  ATLAS Run 2 non resonant HH measurements of Higgs Boson Self-Coupling, combinations and projections for HL-LHC (24+6) 30m
  
  A combination of searches for non-resonant Higgs boson pair production in the $b\bar{b}b\bar{b}$, $b\bar{b}\gamma\gamma$, $b\bar{b}\tau^{+}\tau^{-}$ final states with the ATLAS detector provides constraints on the Standard Model prediction. Current analyses at $\sqrt{s} = 13 \, \text{TeV}$ with 126–140 $\text{fb}^{-1}$ of data set a 95% CL upper limit of 2.9 times the Standard Model prediction on the Higgs boson pair production rate, with an expected limit of 2.4 under no pair production.
  
  Ponente: Francesco Curcio (IFIC, U. Valencia - CSIC)
  
  fcurcio_non-resonant HH measurements.pdf
- 15:35 → 15:47
  
  Offline electron identification using a Deep Neural Network (12+3) 12m
  
  Previously in ATLAS a likelihood approach has been used for prompt electron identification against different possible backgrounds.
  Over the last few years, great efforts have been made in order to develop a versatile, powerful and reliable deep neural network (DNN) that is able to perform a multinomial classification of electrons according to different pre-defined classes. Once this machine learning algorithm learns the fundamental characteristics of each electron type, different discriminants can be built out of the multinomial scores given by the DNN in order to decide to decide whether an electron can be identifed as prompt within a pre-defined efficiency.
  
  Ponente: Enrique Valiente Moreno (CSIC-IFIC (UV))
  
  L1HiggsForce_EIDNN (1).pdf
- 15:55 → 16:19
  
  Aligned Two Higgs Doublet Model and electric dipole moment of electron (24+6) 24m
  
  Electric dipole moment of electron (eEDM) is an interesting observable to search for new sources of CP violation and hence for prospect of BSM scenarios. In the SM, eEDM starts getting contributions from four-loop order, and thus it posses an extremely tiny value of $d_e^{SM}\leq 10^{-38}e\,cm$. However, the current experimental bound on eEDM is $d_e^{exp}\leq 10^{-30} e\,cm$ which leaves a large room for the BSM scenarios to be condidered. Aligned two Higgs doublet model (A2HDM) is a simplest extension of the SM. It can provide CP violation in both scalar and Yukawa sector resulting in a larger value of eEDM. We have studied the full two-loop contribution to eEDM in this model. We reproduce the same leading log behaviour from the EFT approach too.
  
  Ponente: Anirban Karan
  
  talk_anirban.pdf
martes, 3 diciembre
- lun., 2 dic.
- mar., 3 dic.
- 10:00 → 10:24
  
  Running constants: experimental evidence for the scale evolution of the strong coupling and quark masssesle evolution of the strong coupling and quark massses (24+6) 24m
  
  This review presents the current experimental evidence for the scale dependence of the parameters of the QCD Lagrangian. Ample evidence over a broad range of energy scales exists for the running of the strong coupling. I will review studies into the scale evolution of quark masses in more detail, with particular emphasis on the bottom quark, where Higgs data has helped to raise evidence for "running" of the mass to a significance greater than 5 sigma. I will discuss ongoing studies beyond the current state of the art and will present new directions and prospects at existing and future facilities.
  
  This is meant to be a proper review, but leans heavily on IFIC contributions in PRL128 (2022) 12, J.Phys.G 51 (2024) 9, and Snowmass reports arXiv:2203.16994, arXiv:2209.11267
  
  Ponente: Marcel Vos (IFIC Valencia)
  
  bottom_quark_and_higgs_boson_ific_higgs_days.pdf
- 10:30 → 10:54
  
  Pushing the boundaries of perturbative QCD (and more...) for LHC physics (24+6) 24m
  
  The Large Hadron Collider (LHC) is currently in its third and final run, exceeding its design luminosity and producing an unprecedented amount of
  high-precision data. The remarkable accuracy of these measurements demands equally precise theoretical predictions to fully exploit the LHC's potential for new discoveries and precise characterization of the
  Standard Model. The pursuit of percent-level or even sub-percent-level theoretical accuracy necessitates advancements in theoretical calculations, particularly in perturbative Quantum Chromodynamics (QCD).
  The talk will delve into the current state-of-the-art in theoretical calculations for LHC phenomenology, highlighting recent breakthroughs in
  next-to-next-to-leading order (NNLO) and ongoing efforts to push the boundaries towards N3LO precision. The challenges and future directions in achieving the required theoretical accuracy for the LHC's high-precision era and future colliders will also be discussed.
  
  Ponente: Leandro Javier Cieri (Universidad de Valencia - IFIC)
  
  Leandro_IFIC_L1_Diciembre_2024.pdf
- 11:00 → 11:12
  
  Extraction of the top quark pole mass from differential cross sections (12+3) 12m
  
  We present a measurement of the top quark pole mass, based on a method developed at IFIC where the mass is determined from the normalized differential cross section for associated production of a top quark pair with an energetic jet. The new result is based on the di-lepton channel, using 140/fb of pp collision data at sqrt(s) = 13 TeV, collected by the ATLAS experiment in run 2 of the Large Hadron Collider. The top quark pole mass is extracted by comparing the measured differential cross section to fixed-order predictions for the pp -> ttbar + jet process and the 2->7 process that includes top quark decay and non-resonant contributions. The measurement reaches a precision below 1 GeV, making it the most precise ATLAS top quark pole mass determination to date.
  
  The analysis was approved by the top group on the 7th of November and will be unblinded in the next weeks. It can be presented as "work in progress" at our meeting.
  
  Ponente: Luis Monsonis Romero (CSIC)
  
  LuisMR_IFIC_031224.pdf
- 11:30 → 12:00
  
  Coffee Break 30m
- 12:00 → 13:00
  
  IFIC Seminar on next generation of QCD parton showers 1h
  
  IFIC Seminar link

Jornadas científicas IFIC: Origin of mass. L1 Higgs Force

1001-Primera-1-1-1 - Paterna. Seminario

Universe

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