XIV CPAN DAYS

Europe/Madrid
BILBAO

BILBAO

Facultad de Ciencia y Tecnología (UPV/EHU)
Description

 

El objetivo de estas Jornadas es reunir a la comunidad científica española integrada en la Agrupación CPAN (Centro Nacional de Física de Partículas, Astropartículas y Nuclear) en torno a una discusión conjunta sobre la situación actual del campo y su prospectiva. Durante las jornadas habrá conferencias invitadas y presentaciones cortas de carácter científico sobre las distintas líneas de investigación que abarca el CPAN. Asimismo, en las jornadas se celebrarán reuniones de las diferentes redes y sesiones paralelas de discusión de las cuatro áreas del CPAN con el objeto de potenciar la cooperación de los grupos españoles de investigación y articular de forma conjunta las líneas prioritarias de actuación.

Las sesiones tendrán lugar en la Facultad de Ciencia y Tecnología, en el campus de Leioa (Bilbao), Universidad del País Vasco UPV/EHU.

https://goo.gl/maps/8pt8D8dbqyQB9BHu8

Las sesiones plenarias serán retransmitidas a través del canal de YouTube de la UPV/EHU:

https://www.youtube.com/@ztffctehu/streams

    

Participants
  • Abelardo Moralejo Olaizola
  • Agustin Lantero
  • Aitor Erkoreka
  • Alberto Ruiz Jimeno
  • Alberto Usón
  • Alejandro Szynkman
  • Alexander Bernal González
  • Alicia Calderon
  • Amanda Nathali Nerio Aguirre
  • Ander Urio Garmendia
  • Andres Renteria
  • Aniol Lobo Salvia
  • Anselmo Cervera
  • Antonio Coutinho
  • Antonio Dobado
  • Antonio Giménez Alcázar
  • Antonio M. Lallena
  • Antonio Pich
  • Antonio Pérez-Calero Yzquierdo
  • Antonio Romero Vidal
  • Anush Petrosyan
  • Anxo Rodríguez Álvarez
  • Arantza Oyanguren
  • Arnau Brossa Gonzalo
  • Arnau Rios Huguet
  • Assumpta Parreño
  • Aurelio Juste
  • Beatriz Gato Rivera
  • Beatriz Romeo
  • Begoña de la Cruz
  • Bert Schellekens
  • Berta Rubio
  • Carlos Gaspar Benitez Montiel
  • Carlos Guerrero
  • Carlos Hoyos Badajoz
  • Carlos Lacasta
  • Carlos Vico Villalba
  • Carmen Garcia
  • Carmen Palomares
  • Cecilia María Morcillo Pérez
  • Celia Fernández Madrazo
  • Celso Martinez Rivero
  • Cesar Domingo-Pardo
  • Cibrán Santamarina Ríos
  • Cristina Margalejo Blasco
  • Daniel Fernandez Ruiz
  • Daniel Jiménez-Aguilar
  • Daniel Naredo
  • Daniel Puerta Megías
  • Daniel Sanchez Parcerisa
  • David Díaz Calderón
  • David Rodriguez Garcia
  • David Sánchez Cid
  • Diego Blas
  • Diego Fernandez del Val
  • Emanuela Musumeci
  • Enrique Nacher
  • Enrique Valiente Moreno
  • Ernesto Arganda
  • Fabian Kellerer
  • Fabio Cardillo
  • Fernando Pinto Gómez
  • Francisco Manuel Arco García
  • Gabriela Llosá
  • Gala González Briz
  • Giada Caneva Santoro
  • Gonzalo Merino
  • Gunar Schnell
  • Hamza Amar Es-sghir
  • Hazaravard Ghumaryan
  • Ignazio Scimemi
  • Imma Riu
  • Inés Gil Botella
  • Irene Valenzuela
  • Isabel Josa
  • Isidro González Caballero
  • Ivan Vila Alvarez
  • Izaac Sanderswood
  • Iñigo Asiáin
  • Jaime Alvarez-Muñiz
  • Jaime Leon Holgado
  • Jaime Martínez-Larraz
  • Javier Cuevas
  • Javier García-Marcos
  • Javier Rozalén Sarmiento
  • Jesus Puerta-Pelayo
  • Jiahui Zhuo
  • Joanes Lizarraga
  • Joaquin Gomez Camacho
  • Jon Urrestilla
  • Jordi Capó
  • Jordi Duarte Campderros
  • Jose Antonio Victoria Fernández
  • Jose Benlliure
  • Jose Enrique Palencia Cortezon
  • Jose L. Tain
  • Jose María Pérez-Poyatos
  • Jose Ramon Espinosa
  • Jose Udias
  • Josep Navarro González
  • Josu Cantero Garcia
  • José Antonio Lay Valera
  • José I. Crespo-Anadón
  • José M. Espino
  • José Rodriguez Quintero
  • João Seabra
  • Juan Alejandro de la Torre González
  • Juan Calderon Bustillo
  • Juan Mena Fernández
  • Juande Zornoza
  • Julia Vogel
  • Julio Novoa Fernandez
  • Julio Ureña
  • Justo Martin-Albo
  • Jónatan Piedra
  • Laura Molina Bueno
  • Lorenzo Varriale
  • Lourdes Urda
  • Luca Fiorini
  • Lucas Garrido Gómez
  • Luis Del Peral
  • Manuel Aguilar
  • Manuel Alvarez Estevez
  • Manuel Asorey
  • Manuel Lozano
  • Marcel Vos
  • Marcos Cerrada
  • Maria Cepeda
  • Maria Jose Costa
  • Maria Jose Garcia Borge
  • Maria Martinez
  • Mariia Didenko
  • Marta Anguiano
  • Martin Gonzalez Alonso
  • Martina Feijoo Fontán
  • Martín de los Rios
  • Mary Cruz Fouz
  • Miguel Angel Sanchis Lozano
  • Miguel Echevarria
  • Miguel Villaplana
  • Nataly Ospina
  • Neus Lopez March
  • Nicanor COLINO
  • Norma Selomit Ramírez Uribe
  • Núria Falcó Moreno
  • Oliver Manzanilla Carretero
  • Pablo Fernández
  • Pablo Galve Lahoz
  • Pablo Garcia Abia
  • Pablo Herrero Gomez
  • Pablo Martínez-Agulló
  • Pablo Pérez Maroto
  • Paola Ferrario
  • Paolo Sabatini
  • Patrick Foldenauer
  • Pau Novella
  • Paula Garcia Moreno
  • Paula Ibáñez García
  • Pilar Casado
  • Pilar Hernandez
  • Rebeca Beltrán Lloría
  • Roberto Emparan
  • Rocío Vilar
  • Rodrigo Alvarez Garrote
  • Rosa María Sanda Seoane
  • Ruben Lopez
  • Salvador Marti Garcia
  • Samuel Fernández Romera
  • Santiago Folgueras
  • Selene Bárbara Parra Aedo
  • Sergio Alves Garre
  • Sergio Blanco Fernandez
  • Sergio Jaimes Elles
  • Sergio Navas
  • Sergio Pastor
  • Supratim Das Bakshi
  • Sven Heinemeyer
  • Tatiana Tarutina
  • Teresa Rodríguez González
  • Theopisti Dafni
  • Thorsten Lux
  • Tomás Raúl Rodríguez Frutos
  • Vicente García Távora
  • Víctor López Pardo
  • Víctor Moya Zamanillo
  • Xabier Marcano
  • Xavier Vilasis-Cardona
  • Yann Cado
    • 15:00 17:00
      Física Teórica
      • 15:00
        RGEs and positivity bounds of the SMEFT dimension-8 operators 20m

        The Standard Model effective field theory (SMEFT) is one of the preferred approaches for studying particle physics in the present scenario. The dimension-six SMEFT operators are the most relevant ones and have been studied in various works. The renormalization group evolution equations of these operators are available in the literature and facilitate examining the SMEFT on combined experimental information gathered across different energy scales. But, the dimension-six operators are not the dominant term for all observables, and some of these operators are loop-generated when UV theories are matched to the SMEFT. Also, considering that for relatively low values of the cut-off scale of the SMEFT, contributions from dimension-eight operators cannot be neglected.

        In this work, we present the renormalization of the bosonic sector of the dimension-eight operators by tree-level generated dimension-eight operators in the matching of weakly coupled UV theories to the SMEFT. These operators appear in the positivity constraints, which determine the signs of certain combinations of Wilson coefficients based on the unitarity and analyticity of the S-matrix. These constraints are remarkably significant as any experimental evidence of a violation of these constraints might indicate the invalidity of the EFT approach, such as, for example, the existence of lighter degrees of freedom below the cut-off scale of the EFT. Also, on the other hand, these restrictions can be taken into account while defining priors on the fits aiming at constraining the SMEFT parameter space.

        Speaker: Dr. Supratim Das Bakshi
      • 15:20
        WW resonances as a window to Higgs physics 20m

        The appearance of resonances in the spectrum of longitudinally polarized WW scattering would be a clear indication of the existence of a New Physics (NP) sector that is described by strong interactions. These processes, emerging in pp collisions, are intimately related to the Higgs mechanism so it seems natural to study the features of the Higgs boson and its potential if one wants to test this supposedly strongly interacting theory (SIT) at high energies. In this talk I will present an effective framework that describes the dynamics of the SIT at low energies reachable at the LHC, and how, in fact, the predictions for resonant states can help to set phenomenological bounds on the Higgs self-couplings, and hence the Higgs potential.

        Speaker: Iñigo Asiáin (ICCUB- Universitat de Barcelona)
      • 15:40
        Phenomenological implications of the NLHT 20m

        In this talk we will briefly review the New Littlest Higgs model with T-parity (NLHT). This is introduced to cure the pathologies of the Littlest Higgs model with T-parity (LHT) in the fermionic sector. As a result of this, the NLHT includes new T-odd scalar particles and heavy fermions. The scalar fields receives their masses from the Coleman-Weinberg potential, independent of the scale of spontaneous breaking of the global symmetry f, and thus potentially light. The extra heavy fermions recieve their masses from a new Yukawa Lagrangian while the top sector is realized similarly to that of the LHT. To constraint the model parameter space, we work in a simplified version with degenerate Yukawa couplings for heavy leptons and quarks. Imposing that no mass exceeds the cutoff scale, current bounds on vector-like quarks and heavy lepton masses compatible with the stable dark photon as our dark matter candidate, we get that the scale f and the particle spectrum is bounded from below and above, the Yukawa coupling of heavy leptons gets fixed and the Yukawa coupling from quarks becomes greatly correlated to the top quark Yukawa couplings. We also study the dominant new T-odd scalar fields decay channels and lifetime.

        Speaker: Mr. Jose María Pérez-Poyatos (Universidad de Granada)
      • 16:00
        The dynamics of domain wall strings 20m

        In many field theories, solitonic solutions admit localized excitations with unnaturally long lifetimes in their spectrum of perturbations. These bound states may play a significant role in the dynamics of solitons, and in particular, they could shed light on some aspects concerning the evolution of cosmic string networks. In this talk I will discuss the influence of this type of excitations on the dynamics of string-like domain walls in 2+1 dimensions, focusing mostly on interesting resonance phenomena arising from the interaction of different modes at a non-linear level. The processes by which the excited string can emit radiation will also be analyzed, and the motion of the soliton in lattice field theory simulations will be contrasted with the one predicted by the Nambu-Goto action.

        Speaker: Mr. Daniel Jiménez-Aguilar (University of the Basque Country)
      • 16:20
        Constraints to the 2HDM soft breaking parameter $m_{12}$ in the di-photon Higgs decay 20m

        Within the 2HDM, it is usual to impose a $Z2$ symmetry to avoid the presence of flavor-changing neutral currents in the model at the tree level. This symmetry can be softly broken by a term in the Lagrangian proportional to a new parameter $m_{12}$. This parameter introduces a new energy scale in the model and is only present in the scalar interactions of the 2HDM. We explore the possible sensitivity to this parameter $m_{12}$ from the di-photon decay of the SM-like Higgs boson. We conclude that, with the present data, this decay can set additional bounds on $m_{12}$ at the 95% CL while respecting the rest of the relevant constraints of the model. Furthermore, we also show that the new measurement of the $W$ boson mass has a lesser impact on the derived limits.

        Speaker: Francisco Manuel Arco García (IFT UAM-CSIC)
      • 16:40
        Consistent Kinetic Mixing 20m

        Extensions of the Standard Model (SM) with new Abelian gauge groups allow for
        kinetic mixing between the new gauge bosons and the hypercharge gauge boson,
        resulting in mixing with the photon. In many models the mixing with the
        hypercharge gauge boson captures only part of the kinetic mixing term with the
        photon, since the new gauge bosons can also mix with the neutral component of
        the $SU(2)_L$ gauge bosons. We take these contributions into account and present
        a consistent description of kinetic mixing for general Abelian gauge groups both
        in the electroweak symmetric and the broken phase. These contributions are
        relevant for all hidden photon models in which SM fermions are charged, like
        $U(1)_{B-L}, U(1)_{L_i-L_j}$, etc.
        Based on these results we derive a low-energy theorem for the couplings of novel
        Abelian gauge bosons with the Standard Model Higgs boson from the one-loop
        kinetic mixing amplitudes.

        Speaker: Patrick Foldenauer (IFT UAM-CSIC)
    • 15:00 17:00
      RENATA (Red Nacional Temática de Astropartículas)
      Convener: Sergio Navas (Universidad de Granada)
      • 15:00
        Theoretical modeling for the Galaxy Clustering and Weak Lensing analysis with the Dark Energy Survey 15m
        Speaker: David Sánchez Cid (CIEMAT)
      • 15:20
        Optimisation of the galaxy sample for the Dark Energy Survey Y6 BAO distance measurement 15m
        Speaker: Juan Mena Fernández (CIEMAT)
      • 15:40
        First constraints on binary black hole environments with LIGO-Virgo observations 15m
        Speaker: Giada Caneva Santoro (IFAE)
      • 16:00
        Searching for ultralight vector bosons with LIGO and Virgo 15m
        Speaker: Juan Calderón Bustillo (IGFAE - Univ Santiago de Compostela)
      • 16:20
        Search for Supernova Relic Neutrinos at Super-Kamiokande and Hyper-Kamiokande 15m
        Speaker: Nataly Ospina Escobar (Universidad Autónoma de Madrid)
      • 16:40
        Offline searches for neutrino transient sources with the ANTARES/KM3NeT neutrino telescopes 15m
        Speaker: Sergio Alves Garre (IFIC, CSIC-U Valencia)
    • 15:00 17:00
      Red FNUC (Red Temática de Física Nuclear)
      • 15:00
        Neutrino-induced single pion production in nuclei 15m
        Speaker: Javier García-Marcos (Universidad Complutense de Madrid)
      • 15:20
        Beta decay of 64,66Ga: Total Absorption Spectroscopy and Isospin Mixing 15m
        Speaker: Selene Bárbara Parra Aedo
      • 15:40
        Primera datación por 14C con CARBONUS en la Universidad de Salamanca 15m
        Speaker: Anxo Rodríguez Álvarez (Universidad de Salamanca)
      • 16:00
        First full β-strength measurement with DTAS across N=126 at FAIR PHASE-0 15m
        Speaker: David Rodriguez Garcia (IFIC)
      • 16:20
        MARS: Modular Apparatus for nuclear Reactions Spectrometry 15m
        Speaker: Lucas Garrido Gómez (Universidad de Sevilla)
      • 16:40
        Probing the structure of 8Be through the Beta decay of 8B: An R-Matrix analysis 15m
        Speaker: Daniel Fernandez Ruiz (IEM-CSIC)
    • 15:00 17:00
      Red Temática de Física del LHC
      Convener: Juan Antonio Aguilar-Saavedra (IFT (CSIC))
      • 15:00
        ATLAS: Probing four-top-quark production with the ATLAS detector 20m
        Speaker: Anil Sonay (IFAE)
      • 15:20
        TH: Machine-learned exclusion limits without binning 20m
        Speaker: ROSA MARIA SANDA SEOANE (IFT)
      • 15:40
        CMS: Studies of the ttW process in multilepton final states 20m
        Speaker: Carlos Vico Villalba (Universidad de Oviedo)
      • 16:00
        ATLAS: Search for invisible particles produced in association with single-top-quarks with the ATLAS detector using Run-2 data 20m
        Speaker: Josep Navarro González (Institut de Física Corpuscular (IFIC) - CSIC/UV)
      • 16:20
        TH: Inflaton hunting at the LHC 20m
        Speaker: Yann Cado (IFAE)
      • 16:40
        CMS: Constraints on anomalous Higgs boson couplings and EFT with the CMS experiment 20m
        Speaker: Lourdes Urda (CIEMAT)
    • 17:00 17:30
      Coffee break 30m
    • 17:30 19:35
      Física Teórica
      • 17:30
        The vector boson spectrum at LHC 20m

        Z and W boson production are fundamental processes at LHC. Theoretically higher order perturbative calculations also have been computed. The precision achieved by LHC data shows however the emergence of non-perturbative effects and new multi-dimentional hadronic structures, beyond PDF. I will discuss the current status of this research and its impactin current observables and future studies both at LHC and EIC (Electron Ion Collider).

        Speaker: Ignazio Scimemi (Universidad Complutense de Madrid)
      • 17:50
        Study of heavy quark-antiquark in-medium potentials 20m

        One of the greatest challenges in physics is to study quantum field theories (QFT) outside the perturbative regime. In particular, to better understand quantum chromodynamics (QCD), the theory that describes the strong nuclear force, in the non-perturbative regime, there are numerous tools available, among which the open quantum systems (OQS) formalism stands out. The quintessential case of this formalism of a subsystem interacting with the environment has a one-to-one equivalence in a system of a hadron immersed in a quark-gluon plasma (QGP). OQS requires the use of a potential and the study of how it is modified by the presence of a medium. Here, we present a general method for the derivation of in-medium potentials starting from its vacuum form. Using the generalised Gauss’s law, together with the introduction of the concept of permittivity, the general form of a potential in the medium is derived by requiring the vacuum case to be recovered. The whole development will then be applied to a particular case, the particle X(3872), and it will be seen that the results obtained – especially the melting temperature of this state – are consistent with state-of-the-art calculations for similar systems.

        Speaker: Víctor López Pardo (IGFAE - USC)
      • 18:10
        The three-gluon vertex in Landau gauge for general kinematics 20m

        The three-gluon vertex plays a central role in the infrared dynamics of Quan-
        tum Chromodynamics (QCD). Gluon self-interaction shows the main diference
        between this theory and others like quantum electrodynamics (QED), its non-
        abelian nature. The appearance of a three-gluon vertex in the QCD Lagrangian
        is intimately linked to both asymptotic freedom and con?nement in QCD. The
        study of its non-perturbative features has attracted attention for the last decades
        in both Dyson-Schwinger and lattice simulations. The three gluon vertex de-
        pends on the incomimg momenta, q, r and p, with the kinematical constrain
        q + r + p = 0. Most lattice studies focus in the symmetric (q2 = r2 = p2) and
        soft-gluon (p = 0, and thus q2 = r2) cases where there is a single momentum
        scale. Both kinematics exhibit an infrared zero-crossing which can be under-
        stood as a consequence of the gluon-mass generation while the ghost remains
        massless.
        In this work, we present recent results for the three-gluon vertex from quenched
        lattice-QCD in extended kinematics, i.e., beyond the limiting previously studied
        cases. From our lattice results, two outstanding features of the non-perturbative
        three-gluon vertex emerge:
        ˆ the form-factor associated to the tree-level tensor is clearly dominant over
        the others
        ˆ the scalar form factors depend almost exclusively on the symmetric vari-
        able s
        Being its study of paramount theoretical relevance by itself, the three-gluon
        vertex is also a central component in a variety of phenomenological studies in the
        continuum. This ongoing search, based on the pro?table synergy between lat-
        tice simulations and continuum methods, has a?orded a ?rmer grip on delicate
        underlying patterns, establishing prominent connections with the emergence of
        a mass-scale in the gauge sector of the theory.

        Speaker: Fernando Pinto Gómez (Universidad Pablo de Oliavide)
      • 18:30
        Testing entanglement and Bell Inequalities in H --> ZZ. 20m

        We discuss quantum entanglement and violation of Bell inequalities in the H --> ZZ decay, in particular when the two Z-bosons decay into light leptons. Although such process implies an important suppression of the statistics, this is traded by clean signals from a "quasi maximally-entangled" system, which makes it very promising to check these crucial phenomena at high energy. We devise a novel framework to extract from H --> ZZ data all significant information related to this goal, in particular spin correlation observables. In this context, we derive sufficient and necessary conditions for entanglement in terms of only two parameters. Likewise, we obtain a sufficient and improved condition for the violation of Bell-type inequalities. The numerical analysis shows that with a luminosity of L = 300 fb^{-1} entanglement can be probed at > 3σ level. For L = 3 ab^{-1} (HL-LHC), entanglement can be probed beyond the 5σ level, while the sensitivity to a violation of the Bell inequalities is at the 4.5σ level.

        Speaker: Alexander Bernal González (IFT UAM-CSIC)
    • 17:30 19:30
      Investigación orientada, tecnología e innovación.: Sesión conjunta con la Red Temática de Física Nuclear
      • 17:30
        Sesión conjunta con Red Temática de Física Nuclear 2h
    • 17:30 19:30
      RENATA (Red Nacional Temática de Astropartículas)
      Convener: María Martínez (Universidad de Zaragoza)
      • 17:30
        Measuring Neutrino Oscillations with A Million Atmospheric Neutrinos 15m
        Speaker: Pablo Fernandez (DIPC)
      • 17:50
        R&D for ultra-low background detectors in axion helioscope searches. 15m
        Speaker: Cristina Margalejo Blasco (Universidad de Zaragoza)
      • 18:10
        Focusing on finding axions with x-ray optics for the International AXion Observatory (IAXO) 15m
        Speaker: Julia Vogel (Universidad de Zaragoza)
      • 18:30
        Artificial Intelligence in Dark Matter experiment DEAP-3600 15m
        Speaker: Antonio Giménez Alcázar (CIEMAT)
      • 18:50
        DAMIC-M: Status and First results 15m
        Speaker: Agustin Lantero (IFCA, CSIC-U Cantabria)
      • 19:10
        DarkShine: Dark sector searches with NA64 experiment at CERN 15m
        Speaker: Laura Molina Bueno (IFIC, CSIC-U Valencia)
    • 17:30 19:30
      Red FNUC (Red Temática de Física Nuclear): Sesión conjunta con Investigación Orientada.
      • 17:30
        Monte Carlo simulations for proton beams: A test of nuclear models 15m
        Speaker: Juan Alejandro de la Torre González (Universidad de Granada)
      • 17:50
        Accurate and practical Scatter Correction in PET with Ultra-fast Monte Carlo 15m
        Speaker: Pablo Galve Lahoz (Grupo de Física Nuclear, EMFTEL & IPARCOS Universidad Complutense de Madrid, CEI Moncloa, Madrid, Spain)
      • 18:10
        Proton-induced cross sections of 11C, 13N, 15O, 12N, 38mK and 15O for PET-based range verification 15m
        Speaker: Mª Teresa Rodríguez González (Universidad de Sevilla)
      • 18:30
        Radiotrazadores para el estudio de Ecosistemas Marinos y Oceanicos: REMO 15m
        Speaker: Enrique Nacher (Instituto de Física Corpuscular - CSIC)
      • 18:50
        LETd calculations with the Monte Carlo Code PENH 15m
        Speaker: Daniel Puerta Megías (Universidad de Granada)
      • 19:10
        Estudio de viabilidad para la medida de reacciones nucleares en fuentes de neutrones impulsadas por láser 15m
        Speaker: Carlos Guerrero (Universidad de Sevilla)
    • 17:30 19:30
      Red Temática de Física del LHC
      Convener: Sven Heinemeyer (IFT (CSIC))
      • 17:30
        TH: Long-lived heavy neutral leptons and EFTs at the LHC 20m
        Speaker: Rebeca Beltrán Lloría (IFIC (CSIC/U. de Valencia))
      • 17:50
        ATLAS: Searches for displaced jets in ATLAS with Full Run 2 data 20m
        Speaker: Mariia Didenko (IFIC Valencia)
      • 18:10
        CMS: Long lived particles in run2 and run3 20m
        Speaker: Celia Fernández Madrazo (Instituto de Física de Cantabria - Universidad de Cantabria)
      • 18:30
        TH: More on MUST for jet tagging 20m
        Speaker: João Seabra (IFT UAM)
      • 18:50
        TH: Low-scale seesaws and LNV at the LHC 20m
        Speaker: Daniel Naredo (IFT-UAM/CSIC)
      • 19:10
        COMP: Evolution of the LHC analysis ecosystem 20m
        Speaker: Dr. Antonio Pérez-Calero Yzquierdo (CIEMAT - PIC)
    • 08:50 11:30
      Red Temática de Física del LHC
      • 08:50
        LHCb: First observation of fully reconstructed B(s)0->Dst Kpi decays and its impact to gamma measurements at LHCb 20m
        Speaker: Arnau Brossa Gonzalo (Universidade de Santiago de Compostela)
      • 09:10
        LHCb: Rare radiative B decays at LHCb 20m
        Speaker: Jiahui Zhuo (IFIC)
      • 09:30
        TH: Magnetic monopoles search with diphoton events at the LHC 20m
        Speaker: Emanuela Musumeci (IFIC)
      • 09:50
        ATLAS: Analysis of TEEC ATLAS data with NNLO QCD calculations and extraction of alphas 20m
        Speaker: Manuel Alvarez Estevez (Universidad Autonoma de Madrid)
      • 10:10
        CMS: DT Upgrade Slice Test Synchronization and Performance 20m
        Speaker: Diego Fernandez del Val (CIEMAT)
      • 10:30
        LHCb: Commissioning of LHCb 20m
        Speaker: Paula Garcia Moreno (Universitat de Barcelona)
      • 10:50
        COMP: Status and perspectives of the Spanish Tier1 and Tier2 centres for LHC Run 3 and the HL-LHC 20m
        Speaker: Miguel Villaplana (IFIC (CSIC-UV))
      • 11:10
        LHCb:Tracking developments for Long Living Particles at LHCb 20m
        Speaker: Sergio Jaimes Elles (IFIC-UV)
    • 08:55 11:30
      Física Teórica
      • 09:00
        Cosmological analogies in the search for new physics in high-energy collisions 20m

        Correlations play a fundamental role in many branches of physics, from quantum mechanics to particle physics and cosmology. In particular, the astonishing homogeneity of the angular distribution of the Cosmic Microwave Background (CMB) radiation across the sky (measured with high precision by WMAP and Planck missions) requires of an inflationary epoch right after the Big Bang to solve the horizon problem. However, still some anomalies like the lack of positive large-angle correlations show up in the study of the CMB, likely indicating the need of a better understanding of the universe evolution.
        Angular correlations in high-energy collisions also could play an important role to uncover a possible non-conventional stage of matter (e.g. from Hidden Valley models) produced on top of the QCD partonic cascade followed by final hadronization. Indeed, new physics beyond the SM could stretch and enhance (pseudo)rapidity and azimuthal 2- and 3-particle correlations in high-energy collisions. We explore a suggestive cosmological analogy together with the physical potential of this technique to detect new physics in hadronic collisions at the LHC, and more cleanly at future e+e- colliders.

        Related papers:
        https://arxiv.org/pdf/2205.13257.pdf
        https://arxiv.org/pdf/2202.10987.pdf
        https://arxiv.org/pdf/2110.05900.pdf
        https://arxiv.org/pdf/2006.06569.pdf

        Speaker: Prof. Miguel Angel Sanchis Lozano (IFIC-University of Valencia)
      • 09:20
        Non-linear dynamics of Axion-Inflation 20m
        Speaker: Ander Urio Garmendia (UPV/EHU)
      • 09:40
        Application of a quantum algorithm for querying causality 20m

        A quantum algorithm application for Feynman loop integrals is illustrated. We present a proper modification of Grover's algorithm for the identification of causal singular configurations of multiloop Feynman diagrams. The quantum algorithm is implemented in a quantum simulator, the output obtained is directly translated to causal thresholds needed for the causal representation in the loop-tree duality.

        Speaker: Norma Selomit Ramírez Uribe (IFIC UV-CSIC)
      • 10:00
        Variational Quantum Eigensolver for Feynman Diagrams 20m

        We present a variational quantum eigensolver (VQE) algorithm for the efficient bootstrapping of the causal representation of multiloop Feynman diagrams in the Loop-Tree Duality (LTD) or, equivalently, the selection of acyclic configurations in directed graphs. A loop Hamiltonian based on the adjacency matrix describing a multiloop topology, and whose different energy levels correspond to the number of cycles, is minimized by VQE to identify the causal or acyclic configurations. The algorithm has been adapted to select multiple degenerated minima and thus achieves higher detection rates. A performance comparison with a Grover's based algorithm is discussed in detail. The VQE approach requires, in general, fewer qubits and shorter circuits for its implementation, albeit with lesser success rates.

        Speaker: Mr. Andrés Rentería (IFIC UV-CSIC)
    • 09:00 11:30
      Investigación orientada, tecnología e innovación.
      • 09:00
        Energy resolution in a PET scanner based on liquid xenon 20m
        Speaker: Paola Ferrario (IFIC)
      • 09:20
        Caracterización y modelado de SiPM en GAE-UCM 20m

        Los fotomultiplicadores de silicio (SiPMs) cada día tienen mayor aplicación en física de altas energías (p.ej., en Medicina Nuclear, telescopios Cherenkov para astronomía de rayos gamma, y detectores en colisionadores de partículas). No obstante, algunos aspectos de la respuesta de SiPMs, en particular en el régimen no lineal, aún no son del todo bien entendidos. El Grupo de Altas Energías (GAE) de la UCM lleva trabajando varios años en la caracterización y modelado de la respuesta de estos detectores [1, 2, 3].
        En esta ponencia se presentarán los últimos avances que ha realizado el GAE en el modelado de la respuesta no lineal de los SiPMs. Se describirá resumidamente un modelo matemático [3] que tiene en cuenta todos los procesos que contribuyen a la no linealidad del detector: el número finito de microceldas del dispositivo, el tiempo de recuperación, el crosstalk, el afterpulsing y el ruido no correlacionado. Se explicará cómo usar este modelo para caracterizar la respuesta del detector en un caso práctico, en función de unos pocos parámetros efectivos que pueden medirse fácilmente en cualquier sistema experimental. Una ventaja importante de este modelo es que tiene en cuenta adecuadamente la dependencia de la respuesta no lineal del con la forma temporal de los pulsos de luz.
        Se expondrá el trabajo que está llevando a cabo actualmente para la mejora de este modelo, así como su validación con simulaciones de Monte Carlo y con valores experimentales. Por último, se comentarán las expectativas del GAE en esta línea de investigación.

        [1] L. Gallego, J. Rosado, F. Blanco and F. Arqueros, Modelling crosstalk in silicon photomultipliers, 2013 JINST 8 P05010.
        [2] J. Rosado and S. Hidalgo, “Characterization and modeling of crosstalk and afterpulsing in Hamamatsu silicon photomultipliers,” J. Instrum., vol. 10, Oct. 2015, Art. no. P10031. doi: 10.1088/1748-0221/10/10/P10031.
        [3] Rosado, Jaime. (2019). Modeling the Nonlinear Response of Silicon Photomultipliers. IEEE Sensors Journal. PP. 1-1. 10.1109/JSEN.2019.2938018.

        Speaker: Víctor Moya Zamanillo (Departamento EMFTEL, Universidad Complutense de Madrid, 28040 Madrid)
      • 09:40
        ASTRA - a novel Range Telescope for proton CT 20m
        Speaker: Thorsten Lux (IFAE)
      • 10:00
        Experimental tests of the scanner prototype for imaging with protons developed at IEM-CSIC 20m
        Speaker: Amanda Nathali Nerio Aguirre (IEM-CSIC)
      • 10:20
        Radiation detectors for advanced particle therapy 20m

        Consuelo Guardiola, Celeste Fleta, Giulio Pellegrini, Faustino Gómez, and Manuel Lozano

        New detection systems for microdosimetry and FLASH therapy have been developed and successfully tested at the Orsay Proton Therapy Center (CPO, France) and the National Metrology Institute (PTB, Germany) respectively. They are based in novel silicon 3D-cylindrical microdetectors and silicon carbide (SiC) designed and manufactured at the Centro Nacional de Microelectrónica (IMB-CNM, CSIC) in Barcelona, Spain.

        On the one hand, the former has a cylindrical shape with a size comparable to that of the nuclei of human cells (20 µm-thick, 25 µm-diameter). On the other hand, the SiC is a very promising material for hard radiation detectors, as those required in FLASH therapy. Both detectors have been specifically customized for being used in particle therapy, overcoming some of the technological challenges in this domain, namely the low noise capability, well-defined sensitive volume, high spatial resolution and pile-up robustness.

        We present here the results of the first dosimetry measurements performed with both detectors in standard proton therapy and FLASH conditions. Both systems can have a positive impact in clinical treatments: the Si microdosimeters can reduce the radiobiological uncertainties in the normal tissue surrounding the target by allowing for further RBE calculations; the SiC detectors aim to be the first active dosimeter working at ultra-high dose rates. Additionally, it can be employed for commissioning accelerators and radiation protection for spacecraft, i.a.

        Speaker: Manuel Lozano (IMB-CNM (CSIC))
      • 10:40
        New commercial-ready particle detector technologies at IMB-CNM (CSIC) 20m

        Daniela Bassignana, Miguel Ullán, Giulio Pellegrini, Salvador Hidalgo, Celeste Fleta, and Manuel Lozano

        During the last years, we have been upgrading the Micro-Nano Fabrication Clean Room of the IMB-CNM (CSIC) to process 15 cm wafers. This has compelled us to redevelop our standard technologies (as pad detectors, AC and DC coupled microstrip detectors, pixel detector or 3D-pixels) for the new wafer size using new equipments.

        In parallel, we have stabilized new particle detector technologies so we can now offer them at a “commercial-ready” status. We can mention in this category Low-Gain Avalanche detectors, ultra-shallow junction diodes for very low energy particles, resistive electrode detectors, Silicon Carbide diodes or microchannels for detector cooling.

        In this talk we will present these new developments that could be of interest to the Spanish CPAN community of any other particle or nuclear laboratory in the world.

        Speaker: Manuel Lozano (IMB-CNM (CSIC))
      • 11:00
        MACACOIII first evaluation for nuclear medicine imaging 20m
        Speaker: Dr. Gabriela Llosa (IFIC-CSIC)
    • 09:00 11:30
      RENATA (Red Nacional Temática de Astropartículas)
      Convener: Sergio Pastor (IFIC, CSIC-Univ Valencia)
    • 09:00 11:30
      Red FNUC (Red Temática de Física Nuclear)
      • 09:00
        Scattering of 15C on 208Pb at energies near the Coulomb barrier 15m
        Speaker: Vicente García Távora (IEM - CSIC)
      • 09:20
        Investigating the production of medical imaging radioisotopes using laser-accelerated protons 15m
        Speaker: Jose Benlliure (University of Santiago de Compostela)
      • 09:40
        Study of multi-nucleon knockout reactions of exotic nuclei in the region of Sn 15m
        Speaker: Martina Feijoo Fontán (USC)
      • 10:00
        Simulating the deuteron with Machine Learning 15m
        Speaker: Javier Rozalén Sarmiento (Universitat de Barcelona)
      • 10:20
        Exploring the potential γγ-decay to constrain 0νββ-decay NMEs 15m
        Speaker: Beatriz Romeo Zaragozano (DIPC)
      • 10:40
        Optimization of the number of states in the Generator Coordinate Method 15m
        Speaker: Jaime Martínez-Larraz Torra (UAM)
      • 11:00
        50,53Cr (n,γ) cross section measurement at nTOF@CERN 10m
        Speaker: Mr. Pablo Pérez Maroto (Universidad de Sevilla)
      • 11:15
        Caracterización de la cápsula A005 en el criostato de test mediante el escaneado experimental con fuentes puntuales y simulación 10m
        Speaker: Gala González Briz (Universidad de Salamanca)
    • 11:30 12:00
      Coffee break 30m
    • 12:00 14:10
      Plenary Session
      • 12:00
        Inauguración 30m
      • 12:30
        First observations with LST-1, the prototype Large Size Telescope of CTA 30m

        “First observations with LST-1, the prototype Large Size Telescope of CTA” Abelardo Moralejo (IFAE)

        Speaker: Abelardo Moralejo (IFAE-BIST, Barcelona)
      • 13:05
        Gamma-ray imaging for nuclear astrophysics studies and applications 30m
        Speaker: César Domingo-Pardo (IFIC (CSIC-Univ Valencia))
      • 13:40
        Future perspectives for Higgs physics and theoretical challenges 30m
        Speaker: Sven Heinemeyer (IFT (UAM-CSIC))
    • 14:10 16:00
      Lunch 1h 50m
    • 16:00 17:10
      Plenary Session
      • 16:00
        ANAIS-112: first direct test of DAMA/LIBRA beyond three sigma 30m
        Speaker: María Martínez (Universidad de Zaragoza)
      • 16:35
        Nuclear and hadronic physics at low energies from lattice QCD 30m
        Speaker: Assumpta Parreño (Universitat de Barcelona)
    • 17:10 17:40
      Coffee break 30m
    • 17:40 19:30
      Plenary Session
      • 17:40
        Development towards a Higgs/top/EW factory 30m
        Speaker: Mary Cruz Fouz (CIEMAT)
      • 18:15
        Status of FPN National Projects 30m
        Speaker: Pilar Hernández (AEI)
      • 18:50
        Open session 40m
    • 09:00 10:45
      Plenary Session
      • 09:00
        LHC experiments performance, first results and opportunities for Run-3 30m
        Speaker: Aurelio Juste (ICREA/IFAE Barcelona)
      • 09:35
        Holography applied to nuclear physics and astrophysics 30m
        Speaker: Carlos Hoyos (Universidad de Oviedo)
      • 10:10
        Accessing nuclear structure with low-energy reactions 30m
        Speaker: José Antonio Lay (Universidad de Sevilla)
    • 10:45 11:15
      Coffee break 30m
    • 11:15 13:45
      Plenary Session
    • 13:45 15:15
      Lunch 1h 30m
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