Planck 2013&nbsp;<br /> <h2>From the Planck Scale to the Electroweak Scale</h2>

Europe/Berlin
Bonn

Bonn

Physikalisches Institut Nussallee 12 53115 Bonn
Description

Participants
  • Abdelhak Djouadi
  • Akin Wingerter
  • Alberto Casas
  • Alexander Knochel
  • Alexander Merle
  • Alexandra Oliveira
  • Andre Lukas
  • Andrea Thamm
  • Andrea Wulzer
  • Andreas Goudelis
  • Andreas Trautner
  • Andrew Powell
  • Andrew Spray
  • Anna Kaminska
  • Antonio Masiero
  • Antonio Racioppi
  • Anupam Mazumdar
  • Atsushi Watanabe
  • Benoit Schmauch
  • Beranger Dumont
  • Björn Garbrecht
  • Brian Dolan
  • Bryan Zaldivar
  • Bum-Hoon Lee
  • Camilo A. Garcia Cely
  • Carolina Arbeláez
  • Cedric Delaunay
  • Chan Beom Park
  • Christian Spethmann
  • Christine Hartmann
  • Christoph Liyanage
  • Christoph Luhn
  • Claudia Hagedorn
  • Clemens Wieck
  • Cliff Burgess
  • Damian Kaloni Mayorga Pena
  • Dan Hooper
  • Daniel Baumann
  • Daniel Schmeier
  • Daniele Barducci
  • David Marzocca
  • David Nolde
  • David Vanegas Forero
  • Dennis D. Dietrich
  • Dumitru Ghilencea
  • Eirik Eik Svanes
  • Enrico Bertuzzo
  • Enrico Maria Sessolo
  • Eran Palti
  • Fabian Ruehle
  • Fabio Zwirner
  • Felix Bruemmer
  • Florian Kurz
  • Florian Lyonnet
  • Florian Staub
  • Francisco Pedro
  • Gabriele Honecker
  • George Leontaris
  • Germano Nardini
  • Giampiero Esposito
  • Gino Isidori
  • Giorgio Arcadi
  • Glauber Carvalho Dorsch
  • Graham Ross
  • Gudrid Moortgat-Pick
  • Gustavo C. Branco
  • Hans Peter Nilles
  • Herbi Dreiner
  • Hitoshi Murayama
  • Howard Haber
  • Hyun Min Lee
  • Ido Ben-Dayan
  • Ignatios Antoniadis
  • Ivo de Medeiros Varzielas
  • Jacek Pawełczyk
  • James Unwin
  • Jamie Tattersall
  • Javier Rubio
  • Jesus M. Moreno
  • Jie Gu
  • Jihn E. Kim
  • Jonathan Butterworth
  • Jorge Romão
  • Jose Gracia-Bondia
  • Jose Santiago
  • Jose W.F Valle
  • Joseph Conlon
  • Juan Alberto Yepes
  • Julia Volmer
  • Julien Baglio
  • Kamila Kowalska
  • Karl Koller
  • Kher Sham Lim
  • Kilian Nickel
  • Kiwoon Choi Choi
  • Kohei Kamada
  • Krzysztof Rolbiecki
  • Kyle Allison
  • Lara Anderson
  • Laura Covi
  • Leonardo Pedro
  • Leslaw Rachwal
  • Leszek Roszkowski
  • Lisa Edelhäuser
  • Lorenzo Calibbi
  • Lorenzo Ubaldi
  • Luis Aparicio
  • Luis Ibanez
  • Manuel Drees
  • Marcin Badziak
  • Marco Cirelli
  • Marco Fabbrichesi
  • Marek Olechowski
  • Margarida Nesbitt Rebelo
  • Martin Hirsch
  • Martin Holthausen
  • Martin Krauss
  • Martin Spinrath
  • Martin Winkler
  • Martti Raidal
  • Masaki Asano
  • Mateusz Iskrzyński
  • Matthias Schmitz
  • Maximilian Poretschkin
  • MD Abdur Razzaque
  • Michael Blaszczyk
  • Michael G. Schmidt
  • Michael Ratz
  • Michael Schmidt
  • Mikaël Dhen
  • Moritz McGarrie
  • Natsumi Nagata
  • Nejc Kosnik
  • Nicki Bornhauser
  • Nicolás Bernal
  • Oleksii Matsedonskyi
  • Pantelis Tziveloglou
  • Paolo Lodone
  • Paul-Konstantin Oehlmann
  • Paulo Flose Reimberg
  • Philip Bechtle
  • Pramod Shukla
  • Quentin Le Boulc'h
  • Raghuveer Garani
  • Ralph Blumenhagen
  • Renato Fonseca
  • Riccardo Torre
  • Rick Sandeepan Gupta
  • Robert Ziegler
  • Roshan Foadi
  • Sabine Kraml
  • Stefan Förste
  • Stefan Groot Nibbelink
  • Stefan Pokorski
  • Stefan Vogl
  • Stefano Colucci
  • Stefano Di Chiara
  • Stefano Di Vita
  • Stephan Huber
  • Stephen Angus
  • Stephen West
  • Stéphane Lavignac
  • Suchita Kulkarni
  • Sven Krippendorf
  • Swasti Belwal
  • Takeo Moroi
  • Thaisa Guio
  • Tim Jones
  • Tim Stefaniak
  • Tiziana Scarna
  • Toby Opferkuch
  • Tomasz Jelinski
  • Ulrich Nierste
  • Valentina De Romeri
  • Viraf Mehta
  • Wan-Il Park
  • Yasutaka Takanishi
  • Yi Cai
  • Zygmunt Lalak
    • 8:00 AM 9:00 AM
      Registration Zeichensaal (1st floor)

      Zeichensaal (1st floor)

      Bonn

      Wegelerstr. 10 53115 Bonn
    • 9:00 AM 10:00 AM
      Review Talk Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Hans Peter Nilles
      • 9:00 AM
        The LHC: Latest news from the energy frontier 55m
        Speaker: Mr Butterworth Jonathan
        Slides
    • 10:00 AM 10:30 AM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Hans Peter Nilles
      • 10:00 AM
        Implications of the Higgs discovery 25m
        Speaker: Mr Abdelhak Djouadi
        Slides
    • 10:30 AM 11:00 AM
      Coffee Break 30m
    • 11:00 AM 12:30 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Hans Peter Nilles
      • 11:00 AM
        SUSY after the Higgs 25m
        Speaker: Sabine Kraml (LPSC Grenoble)
        Slides
      • 11:30 AM
        Scales of supersymmetry breaking and flavor models 25m
        Speaker: Mr Stefan Pokorski
        Slides
      • 12:00 PM
        Are we done with the LHC? 25m
        Speaker: Mr Hitoshi Murayama
        Slides
    • 12:30 PM 2:30 PM
      Lunch 2h
    • 2:30 PM 4:00 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Sabine Kraml
      • 2:30 PM
        Do we need an LC to see SUSY? 25m
        Speaker: Prof. Gudrid Moortgat-Pick (University of Hamburg / DESY)
        Slides
      • 3:00 PM
        Higgs thermal inflation and low energy supersymmetry 25m
        Speaker: Mr Tim Jones
        Slides
      • 3:30 PM
        The Status of Constrained SUSY, and implications from the Higgs 25m
        Speaker: Mr Philip Bechtle
        Slides
    • 4:00 PM 4:30 PM
      Coffee Break 30m
    • 4:30 PM 6:00 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Sabine Kraml
      • 4:30 PM
        The MSSM Higgs Mass Revisited 25m
        Speaker: Howie Haber
        Slides
      • 5:00 PM
        Fermi 130 GeV gamma ray line as an indirect signal of DM 25m
        Speaker: Mr Martti Raidal
        Slides
      • 5:30 PM
        Visible sector models of inflation and curvaton 25m
        Speaker: Mr Anupam Mazumdar
        Slides
    • 6:00 PM 8:00 PM
      Welcome 2h
    • 8:00 AM 9:00 AM
      Registration Zeichensaal (1st floor)

      Zeichensaal (1st floor)

      Bonn

      Wegelerstr. 10 53115 Bonn
    • 9:00 AM 10:00 AM
      Review Talk Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Anupam Mazumdar
      • 9:00 AM
        Cosmology and astroparticle physics after Planck 55m
        Speaker: Mrs Laura Covi
        Slides
    • 10:00 AM 10:30 AM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Anupam Mazumdar
      • 10:00 AM
        Acceleration, then and now 25m
        Speaker: Mr Cliff Burgess
        Slides
    • 10:30 AM 11:00 AM
      Coffee Break 30m
    • 11:00 AM 12:30 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Anupam Mazumdar
      • 11:00 AM
        Probing High-Scale Physics with Planck 25m
        Speaker: Mr Daniel Baumann
        Slides
      • 11:30 AM
        Dark Matter in the Discovery Age 25m
        Speaker: Mr Dan Hooper
        Slides
      • 12:00 PM
        Exponential mass hierarchies and cosmology 25m
        Speaker: Mr Zygmunt Lalak
        Slides
    • 12:30 PM 2:00 PM
      Lunch 1h 30m
    • 2:00 PM 3:30 PM
      Parallel Session on Cosmology Seminar Room BCTP

      Seminar Room BCTP

      Bonn

      Convener: Mrs Laura Covi
      • 2:00 PM
        An enhanced CMB power spectrum from quantum gravity 25m
        We evaluate the modifications to the CMB anisotropy spectrum that result from a semiclassical expansion of the Wheeler–DeWitt equation for a real scalar field coupled to gravity in a spatially flat FLRW universe. Recently, such an investigation has led to the prediction that the power at large scales is suppressed. We make here a more general analysis and show that there is an ambiguity in the choice of solution to the equations describing the quantum gravitational effects. Whereas one of the two solutions describes a suppression of power, the other one decribes an enhancement. We investigate possible criteria for an appropriate choice of solution. We also derive general formulae for arbitrary values of the complex parameter in the general solution of the nonlinear differential equations for the JWKB wave function.
        Speaker: Giampiero Esposito
        Slides
      • 2:30 PM
        Results for Leptogenesis from Non-Equilibrium Field Theory 25m
        We explain how non-equilibrium methods give rise to NLO corrections to the theory of unflavoured Leptogenesis in the strong washout regime. New LO predictions are made available in the weak washout case (including Leptogenesis from mixing light sterile neutrinos) and for the transition between the flavoured and unflavoured regimes. As a new source of CP-violation, we identify the mixing of active species, i.e. of lepton doublets or several Higgs doublets.
        Speaker: Björn Garbrecht
        Slides
      • 3:00 PM
        Gravitational waves from the sound of a first-order phase transition 25m
        I will report on the first numerical 3+1D simulation of a thermal first-order phase transition. The simulation includes a scalar field plus a relativistic fluid. We follow the evolution and collisions of the bubbles related to the phase transition. We compute the generated gravitational wave spectrum, and find that their prime source are sound produced by the colliding bubbles.
        Speaker: Stephan Huber
        Slides
    • 2:00 PM 3:30 PM
      Parallel Session on Flavor Physics Lecture Hall 1 Physics

      Lecture Hall 1 Physics

      Bonn

      Convener: Mr Antonio Masiero
      • 2:00 PM
        MFV in 2HDM 25m
        We discuss extensions of the Standard Model with two Higgs doublets, where there are flavour changing neutral currents both in the quark and leptonic sectors, with their strength controlled by the fermion mixing matrices $V_{CKM}$ and $V_{PMNS}$. These models are an extension to the leptonic sector of the class of models previously considered by Branco, Grimus and Lavoura, for the quark sector. They are based on a symmetry and as a result they are very constrained from the experimental point of view.
        Speaker: Margarida Nesbitt Rebelo
        Slides
      • 2:30 PM
        Complementarity of Bs->mu+mu- and B-> K l+l- decays in New Physics searches 25m
        We discuss the advantages of combining the experimental bound on Br(B_s -> mu+ mu-) and the measured Br(B -> K l+l-) to get the model independent constraints on physics beyond the Standard Model. Since the two decays give complementary information, one can study not only the absolute values of the Wilson coefficients that are zero in the Standard Model, but also their phases. We study benchmark phenomenological models, where only one type of Wilson coefficient is present at a time as well as motivated supersymmetric models and models with leptoquarks. To identify the sector in which the new physics might appear, information about the shapes of the transverse asymmetries in B -> K* l+l- at low q^2's can be particularly useful. We also emphasize the importance of measuring the forward-backward asymmetry in B -> K l+l- decay at large q^2's.
        Speaker: Nejc Kosnik
        Slides
      • 3:00 PM
        Heavy neutrino search in accelerator-based experiments 25m
        It is known that heavy sterile neutrinos (HSN) of order 100 MeV can serve as an agent of the baryon asymmetry and successful supernova explosions. We explore the feasibility of detecting such HSN by the existing facilities of neutrino experiments. Taking the T2K experiment as a typical example, we find that the HSN are copiously produced at the secondary beam line and their decays taking place inside the near detector can be observed. The sensitivity of T2K at 10^{21} POT is better than that of the previous experiment PS191, which has placed the most stringent bounds on the HSN couplings.
        Speaker: Atsushi Watanabe
        Slides
    • 2:00 PM 3:30 PM
      Parallel Session on Formal BSM Small Lecture Hall Mathematics

      Small Lecture Hall Mathematics

      Bonn

      Convener: Mr Tim Jones
      • 2:00 PM
        Compressed SUSY and Gauge Coupling Unification 25m
        I study precision gauge coupling unification (PGU) in the MSSM with pure gravity and mixed gravity/anomaly mediation. Implications of PGU for SUSY searches at the LHC are discussed.
        Speaker: Martin Winkler
        Slides
      • 2:30 PM
        A model for light sterile neutrinos 25m
        Some experimental anomalies suggest the possible existence of light sterile neutrino(s) mixing with the active ones. In this talk, we present a (supersymmetric) scenario in which the sterile neutrino is the fermionic partner of the pseudo-Goldstone boson associated with the spontaneous breaking of an approximate global symmetry. This property protects the sterile neutrino mass against large contributions that would otherwise be allowed by all symmetries. We discuss the phenomenological implications of such a light sterile neutrino.
        Speaker: Stéphane Lavignac
        Slides
      • 3:00 PM
        The naturally light dilaton 25m
        The Goldstone theorem does not apply straightforwardly to the case of spontaneously broken spacetime symmetries such as dilatation invariance. We elucidate under which conditions a light scalar degree of freedom, identifiable with the dilaton, can naturally arise in a field theory. Our construction can be considered as an example of an explicit dynamical solution to the Cosmological Constant problem in the scalar version of gravity. Note added: it is NOT about interpreting the Higgs boson as a dilaton/impostor.
        Speaker: Paolo Lodone
        Slides
    • 2:00 PM 3:30 PM
      Parallel Session on LHC Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Convener: Jamie Tattersall
      • 2:00 PM
        Light RPV stops hiding in the LHC data 25m
        I will discuss the 8 TeV LHC reach on pair produced heavy flavored di-jet resonances. Motivated by theories of R-parity violation in supersymmetry I will concentrate on a final state with two b-jets and two light jets. I will exploit b-tagging to reject the background and discuss its importance at the trigger level to probe light stops. I will also present kinematical selections that can be used to isolate the signal as a bump in the mass distribution of the candidate resonances. As a result I will show that stops with R-parity violating couplings giving rise to fully hadronic final states can be found in the present LHC dataset. Remarkably, the LHC can probe stop masses well within the range predicted by naturalness.
        Speaker: Riccardo Torre
        Slides
      • 2:30 PM
        Light stops emerging in WW cross section measurements? 25m
        Recent ATLAS and CMS measurements show a slight excess in the WW cross section measurement. While still consistent with the Standard Model within 1-2 sigma, the excess could be also a first hint of physics beyond the Standard Model. We argue that this effect could be attributed to the production of scalar top quarks within supersymmetric models. The stops of mass ~200 GeV has the right cross section and under some assumptions can significantly contribute to the final state of two leptons and missing energy. We scan this region of parameter space to find particle masses preferred by the WW cross section measurements. Taking one sample benchmark point we show that it can be consistent with low energy observables and Higgs sector measurements and propose a method to distinguish supersymmetric signal from the Standard Model contribution.
        Speaker: Krzysztof Rolbiecki
        Slides
      • 3:00 PM
        Top and bottom partner production in composite Higgs models at the LHC 25m
        Natural composite Higgs models predict light top and bottom partners, vector-like quarks that mix strongly with the top and bottom quarks. We describe the strategy to discover them and the Large Hadron Collider and their use to explore further aspects of models of strong electroweak symmetry breaking.
        Speaker: Jose Santiago
        Slides
    • 3:30 PM 4:00 PM
      Coffee Break 30m
    • 4:00 PM 6:00 PM
      Parallel Session on Cosmology Seminar Room BCTP

      Seminar Room BCTP

      Bonn

      Convener: Mrs Laura Covi
      • 4:00 PM
        Strong phase transitions in 2HDM 15m
        We do a random scan over the parameter space of the two-Higgs-doublet model searching for points with a strong phase transition. The results show that the model is a robust candidate for explaining baryogenesis, especially in the light of the recent results by ATLAS and CMS regarding the properties of the recently discovered scalar.
        Speaker: Glauber Carvalho Dorsch
        Slides
      • 4:20 PM
        A predictive scheme for triplet leptogenesis 15m
        I present a model of baryogenesis through leptogenesis, inspired from arXiv:0804.0801, in which a lepton asymmetry is generated by the CP-violating decay of an electroweak scalar triplet. This triplet also gives rise to neutrino Majorana masses through the type II seesaw mechanism. Therefore, there is a very direct link between the CP asymmetry and neutrino parameters, which are already known or could be measured by future experiments. I study the impact of flavor effects and compute the final baryon asymmetry predicted by the model. In particular, the final baryon asymmetry strongly depends on the mixing angle theta_13. The value measured by the Daya Bay experiment is in the right ballpark to account for the observed baryon-to-photon ratio.
        Speaker: Benoit Schmauch
        Slides
      • 4:40 PM
        Tribrid inflation: a framework for connecting inflation with particle physics 15m
        We discuss recent progress on supersymmetric tribrid inflation, a variant of hybrid inflation which is particularly suited for connecting inflation with particle physics. Inflation ends with a phase transition near the GUT scale, and the inflaton can be a D-flat combination of charged fields in the matter sector of the particle theory. This relates the inflaton couplings -- which can be constrained by measurements of the CMB -- to the properties of matter particles, which may be observable in the low-energy theory. In this talk, we identify three different regimes of tribrid inflation and summarize their respective predictions for the CMB spectrum. Afterwards, we explain how the framework of tribrid inflation may be applied in model-building to realise tribrid inflation in explicit SUSY particle physics models near the GUT scale.
        Speaker: David Nolde
        Slides
      • 5:00 PM
        Higgs-Dilaton Cosmology: an effective field theory approach 15m
        The Higgs-Dilaton cosmological model describes simultaneously an inflationary period in the early Universe and a dark energy dominated stage responsible for the present day acceleration. The common origin of both processes gives rise to a non-trivial relation between the spectral tilt of scalar perturbations and the dark energy equation of state. We study the self-consistency of this model from an effective field theory point of view. Taking into account the influence of the dynamical background fields, we determine the effective cut-off of the theory, which turns out to be parametrically larger than all the relevant energy scales from inflation to the present epoch. We finally formulate the set of assumptions needed to estimate the amplitude of the quantum corrections in a systematic way and show that the connection between the early and late universe observables remains unchanged if these conditions are satisfied.
        Speaker: Javier Rubio
        Slides
      • 5:20 PM
        On the electroweak vacuum stability in the inflationary Universe 15m
        Recent LHC results suggest the electroweak vacuum metastability. Although its lifetime is longer than the cosmic age in almost all the parameter space, quantum tunneling to the unwanted true vacuum in the quasi-de Sitter background may occur during inflation. This, in turn, constrains severely high-scale inflation models. In this talk, we discuss how to avoid such tunneling during high-scale inflation and give new constraints on parameters of inflation models, such as reheating temperature.
        Speaker: Kohei Kamada
        Slides
      • 5:40 PM
        On the requirements for a successful WIMPy baryogenesis 15m
        I give a brief overview of a recently proposed mechanism dubbed WIMPy baryogenesis. A stable Weakly Interacting Massive Particle (WIMP) is the Dark Matter (DM) candidate. Via CP-violating annihilations of the WIMP into a quark and an exotic heavy antiquark, one gets not only the right DM thermal relic abundance but also generates the observed baryon asymmetry. I discuss the key ingredients of the models explored so far and suggest possible variants that we are currently investigating.
        Speaker: Lorenzo Ubaldi
        Slides
    • 4:00 PM 6:00 PM
      Parallel Session on Flavor Physics Lecture Hall 1 Physics (DESY Hamburg)

      Lecture Hall 1 Physics

      DESY Hamburg

      Convener: Mr Antonio Masiero
      • 4:00 PM
        Neutrino mixing in an extended Babu-Ma-Valle model 15m
        Recently the last of the neutrino mixing angle $\theta_{13}$ has been measured giving a non zero value. Using discrete symmetries to successfully explain lepton mixing is still possible. As an example, we have modified the so called Babu-Ma-Valle model in such a way that we account for the current neutrino mixing values at 3 $\sigma$.
        Speaker: David Vanegas Forero
        Slides
      • 4:20 PM
        UV completions of A4 models with viable theta13 15m
        The ultraviolet completion of flavour models can strongly improve the predictivity of the respective effective models. We consider A4 models, existing minimal UV completions and construct several next-to-minimal UV complete models. We compare the results of these possibilities to the experimental data including theta13. Through the predictive power of the UV completions, we are able to either rule out or constrain several minimal and next-to-minimal alternatives.
        Speaker: Ivo de Medeiros Varzielas
        Slides
      • 4:40 PM
        Lepton Mixing Patterns from a Scan of Finite Discrete Groups 15m
        The recent discovery of a non-zero value of the mixing angle theta_13 has ruled out tri-bimaximal mixing as the correct lepton mixing pattern generated by some discrete flavor symmetry (barring large next-to-leading order corrections in concrete models). In this work we assume that neutrinos are Majorana particles and perform a general scan of all finite discrete groups with order less than 1536 to obtain their predictions for lepton mixing angles. To our surprise, the scan of over one million groups only yields 3 interesting groups that give lepton mixing patterns which lie within 3-sigma of the current best global fit values. A systematic way to categorize such groups and the implications for flavor symmetry are discussed.
        Speaker: Kher Sham Lim
        Slides
      • 5:00 PM
        Muon conversion to electron in nuclei in type-I seesaw models 15m
        The talk will be based on the paper arXiv:1209.2679, in which is computed the μ → e conversion in the type-I seesaw model, as a function of the right-handed neutrino mixings and masses. The definite predictions will be presented and discussed. In particular, the ratios between the μ → e conversion rate for a given nucleus and the rate of two other processes which also involve a μ − e flavor transition: μ → eγ and μ → eee. Indeed, for a quasi-degenerate mass spectrum of right-handed neutrino masses -which is the most natural scenario leading to observable rates- those ratios depend only on the seesaw mass scale, offering a quite interesting testing ground. Furthermore, it turns out that planned μ → e conversion experiments would be sensitive to masses as low as 2 MeV. Finally, taking into account other experimental constraints, future μ → e conversion experiments will be fully relevant to detect or constrain sterile neutrino scenarios in the 2 GeV−1000 TeV mass range.
        Speaker: Mikael Dhen
        Slides
      • 5:20 PM
        Revisiting the Г(K→eγ)/Г(K→μγ) ratio in supersymmetric unified models 15m
        It has been pointed out that supersymmetric extensions of the Standard Model can induce significant changes to the theoretical prediction of the ratio Γ(K→eν)/Γ(K→μν)=RK, through lepton flavor violating couplings. We shall discuss these new contributions to RK arising in the context of different constrained supersymmetric models which succeed in accounting for neutrino data, further considering the possibility of accommodating a near future observation of a μ→eγ transition. The prospects for RK in the framework of unconstrained supersymmetric models will also be accessed, taking into account limits on BR(B_s→μμ) and, more importantly, BR(τ→eγ) and BR(B_u→τυ).
        Speaker: Renato Fonseca
        Slides
      • 5:40 PM
        SU(5)-type unification of Yukawa couplings of fermions in MSSM 15m
        What are the conditions, a minimal phenomenologically viable supersymmetric grand unified theory should fulfill? Here, we address the possibility of unification of eigenvalues of down-quark and lepton Yukawa matrices in the framework of renormalizable MSSM. Results will be presented together with a discussion of current values of relevant low-energy observables. This will present an update to previous accounts of supersymmetric SU(5)-type unification of Yukawa couplings for all families of fermions.
        Speaker: Mateusz Iskrzyński
        Slides
    • 4:00 PM 6:00 PM
      Parallel Session on Formal BSM Small Lecture Hall Mathematics

      Small Lecture Hall Mathematics

      Bonn

      Convener: Mr Tim Jones
      • 4:00 PM
        Low scale SUSY breaking and its LHC signatures 15m
        Scenarios in which the supersymmetry breaking scale is not far above the soft parameters of the Minimal Supersymmetric Standard Model (MSSM) have two main consequences for model building. First, the particle spectrum is extended by an almost massless gravitino and possibly a sgoldstino scalar. Second, the MSSM interactions receive significant corrections from higher dimensional effective operators involving the goldstino supermultiplet and MSSM superfields. We present the deformation of MSSM in the case of low supersymmetry breaking scale and its consequences on LHC phenomenology. We focus on deviations of the Standard Model Higgs couplings to gauge bosons and fermions as well as on LHC constraints on the supersymmetry breaking scale.
        Speaker: Pantelis Tziveloglou
        Slides
      • 4:20 PM
        Flavour-messenger unification 15m
        The motivation behind flavour-messenger unification originates from some F-theory constructions of GUT theories where flavour and messengers come from the same D7-brane intersection. This means that messengers and visible matter should be treated on equal footing. This scenerio has very strong consequences on model building and low energy phenomenology.
        Speaker: Jacek Pawełczyk
        Slides
      • 4:40 PM
        A portal extension of the standard model with an unbroken local dark U(1) 15m
        We propose an extension of the standard model in which dark sector respects an unbroken local U(1) symmetry and communicates with standard model sector via portal interactions of Higgs, right-handed neutrinos and kinetic mixing. Various constraints and physics involved in the model are discussed.
        Speaker: Wan-Il Park
        Slides
      • 5:00 PM
        Phenomenology of Bulk Higgs-Radion Mixing 15m
        The discovery of the Higgs candidate boson last year offers a new tool to investigate BSM physics. Models with warped extra dimensions involve an additional scalar, the radion, which can mix with the Higgs. This mixing has been previously considered for Higgses localised on the infrared brane. We extend these studies to two further classes of models: those with a bulk Higgs, and gauge-Higgs unification scenarios where the Higgs is part of a five-dimensional vector field. We demonstrate how the relevant mixing terms can be generated by loop effects, and in particular how this is related to the breaking of gauge symmetry for gauge-Higgs unification models. We further constrain the radion mass and mixing using the observed Higgs production and branching ratios. Finally we consider additional LHC signals that might shed light on these models.
        Speaker: Andrew Spray
        Slides
      • 5:20 PM
        Low-energy predictions of yukawa-deflected gauge mediation models" 15m
        Recent discovery of Higgs-like particle at the LHC points to modifications of standard gauge mediation models. Those which have attracted the most attention contain additional interactions between messengers and matter. During the talk I will discuss the role of such messenger-matter couplings and give examples of low-energy spectra in that class of models.
        Speaker: Tomasz Jelinski
        Slides
      • 5:40 PM
        Effective action in quantum gravity 15m
        We present the formalism of computing one-loop effective action for quantum gravitation using non-local heat kernel methods. We find agreement with previous old results. In main part of my talk I consider the system of E-H gravitation and scalar fields. We are able to derive nonlocal quantum effective action up to the second order in heat kernel generalized curvatures. By going to flat spacetime expressions for gravitational formfactors are constructed and compared with the results from effective field theory for gravity.
        Speaker: Leslaw Rachwal
        Slides
    • 4:00 PM 6:00 PM
      Parallel Session on LHC Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Convener: Jamie Tattersall
      • 4:00 PM
        Spin-1 resonances as a signature of composite Higgs at the LHC 15m
        This talk will focus on the consequences of electroweak symmetry breaking by strong dynamics, assuming the existence of a light composite scalar appearing as a pseudo- Goldstone boson of some global symmetry of the new strongly interacting sector. In such a scenario, the composite scalar has properties very similar to the Standard Model Higgs, but the existence of additional resonances with different spins is also expected. Properties and phenomenology of lightest spin-1 resonances will be considered in a simple general effective Lagrangian description. The question whether the effects of spin- 1 resonances can be observed at the LHC, shedding light on the nature of the Higgs boson, will be addressed.
        Speaker: Anna Kaminska
        Slides
      • 4:20 PM
        Implications of effective axial-vector coupling of gluon for $t\bar{t}$ spin polarizations at the LHC 15m
        We analyze the impact of effective axial-vector coupling of the gluon on spin polarization observables in $t\bar{t}$ pair production at the LHC (arXiv:1212.3272, to appear on PRD). Working at leading order in QCD, we compute the $t\bar{t}$ spin-correlation and left-right spin asymmetry coefficients in the helicity basis in the laboratory frame as functions of the new physics scale $\Lambda$ associated with this coupling. We found that the $t\bar{t}$ invariant mass dependent asymmetries are more sensitive to the scale $\Lambda$ than the corresponding inclusive ones, in particular when suitable cuts selecting high $t\bar{t}$ invariant mass regions are imposed. In the context of this scenario, we show that the LHC has potential either to confirm or to rule out the Tevatron FB top asymmetry anomaly by analyzing the $t\bar{t}$ spin-correlation and left-right polarization asymmetries. On the other hand, stringent lower bound on the new physics scale $\Lambda$ can be set in this scenario if no significant deviations from the SM predictions for those observables will be measured.
        Speaker: Antonio Racioppi
        Slides
      • 4:40 PM
        The MSSM at the end of LHC Phase 1 - status report 15m
        The discovery of the Higgs boson at 126 GeV seems to imply masses in the multi-TeV regime for the simplest constrained SUSY models. Such a heavy supersymmetric spectrum is somewhat at odds with the naturalness criterion. Moreover, in such a framework it is impossible to obtain the correct value of $(g-2)_\mu$. By construction, SUSY models with light sleptons and light third generation squarks do not present the same problem. In this context we analyze the status of a version of the MSSM with 9 free parameters at the end of LHC Phase 1 runs. We investigate the impact on the parameter space of different direct SUSY searches using a statistical approach. We also include various other constraints from b-physics, the anomalous magnetic moment of the muon, the relic density and direct and indirect detection of dark matter. All experimental results are implemented through the likelihood functions, including the limits from XENON100 and from two 8 TeV CMS searches (inclusive search of SUSY particles with $\alpha_T$ and electroweak production), for which the likelihood is constructed through simulation of the signal yields to be compared with observed events and backgrounds given by the experimental collaborations.
        Speaker: Enrico Maria Sessolo
        Slides
      • 5:00 PM
        Using top polarization for improving third generation squark searches 15m
        If supersymmetry is the solution to the Higgs mass hierarchy problem, this requires the existence of light stops and sbottoms. The current reach of the experimental searches for stops and sbottoms at the LHC is however still limited. In this work, we exploit the information about top polarization in sbottom (and stop) decays into tops, in order to gain better control over the signals arising from these sparticles. We discuss various scenarios leading to distinct top polarization. Further, we investigate different observables related to top polarization and comment upon their helpfulness to improve searches for third generation super-particles.
        Speaker: Suchita Kulkarni
        Slides
      • 5:20 PM
        Supersymmetric Parameter Determination at the LHC using a Neural Network 15m
        Finding signs of new physics and even knowing the underlying theory does not automatically come along with the knowledge of the model parameters. In most new physics theories the relation mapping the measured observables onto the model parameters is unknown. In this talk the ability of a neural network is demonstrated to find this unknown relation in parameter space. As example different reference regions of the mSUGRA parameter space are examined in the context of the LHC with a center of mass energy of 14 TeV. But in general a neural network can also be used for any other model. For a given measurement the artificial neural network directly computes the values of the model parameters and their errors.
        Speaker: Nicki Bornhauser
        Slides
      • 5:40 PM
        Probing dynamical electroweak symmetry breaking with cosmic rays 15m
        The energies attained by cosmic rays offer an opportunity for probing the mechanism for dynamical electroweak symmetry breaking directly. In this talk we will discuss which signals are expected to be observed in air showers in the presence of such mechanisms.
        Speaker: Dennis D. Dietrich
        Slides
    • 8:00 AM 9:00 AM
      Registration Zeichensaal (1st floor)

      Zeichensaal (1st floor)

      Bonn

      Wegelerstr. 10 53115 Bonn
    • 9:00 AM 10:00 AM
      Review Talk Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Kiwoon Choi
      • 9:00 AM
        Critical issues in flavor physics 55m
        Speaker: Mr Antonio Masiero
        Slides
    • 10:00 AM 10:30 AM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Kiwoon Choi
      • 10:00 AM
        Flavour physics in the Higgs Era 25m
        Speaker: Mr Gustavo C. Branco
        Slides
    • 10:30 AM 11:00 AM
      Coffee Break 30m
    • 11:00 AM 12:30 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Kiwoon Choi
      • 11:00 AM
        Adding flavor to Higgs studies 25m
        Speaker: Mr Gino Isidori
        Slides
      • 11:30 AM
        Flavour physics, supersymmetry, and GUTs 25m
        Speaker: Prof. Ulrich Nierste (Karlsruhe Institute of Technology)
        Slides
      • 12:00 PM
        Neutrino Mass: status and implications 25m
        Speaker: Mr Jose VALLE
        Slides
    • 12:30 PM 2:00 PM
      Lunch 1h 30m
    • 2:00 PM 3:30 PM
      Parallel Session on BSM Physics Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Dr Florian Staub (University of Bonn)
      • 2:00 PM
        The Scale-Invariant NMSSM and the 126 GeV Higgs Boson 25m
        The recent LHC discovery of a Higgs-like resonance at 126 GeV suggests that the minimal supersymmetric standard model must be modified in order to preserve naturalness. A simple extension is to include a singlet superfield and consider the scale-invariant NMSSM, whose renormalizable superpotential contains no dimensionful parameters. This extension not only solves the \mu-problem, but can easily accommodate a 126 GeV Higgs. I will present our recent study of naturalness in the scale-invariant NMSSM taking into account the constraints from LHC searches, flavor physics and electroweak precision tests. We show that TeV-scale stop masses are still allowed in much of the parameter space with 5% tuning for a low messenger scale of 20 TeV, split families (with third-generation sleptons decoupled) and Higgs-singlet coupling \lambda of order one. For larger values of the Higgs-singlet coupling, which can relieve the tuning in the Higgs VEV, an additional tuning in the Higgs mass limits increasing the (lightest) stop mass beyond 1.2 TeV, the gluino mass above 3 TeV, and electroweak charginos and neutralinos beyond 400 GeV for a combined tuning better than 5%. This implies that the natural region of parameter space for the scale-invariant NMSSM will be fully explored at the 14 TeV LHC.
        Speaker: Michael Schmidt
        Slides
      • 2:30 PM
        SO(10) meets LHC 25m
        In terms of physics results, 2012 has been an exciting year. In July 2012, the ATLAS and CMS collaborations have discovered a new particle that is consistent with the Standard Model Higgs boson. At the same time, the LHC has pushed the lower limits for supersymmetric particles to new heights, and this has contributed to the anxiety in the physics community that SUSY, if realized in nature, may not be "natural" after all. Complementary to these "direct" searches for new physics, the LHCb experiment has presented in November 2012 the first evidence for the rare decay B_s -> mu+ mu- which strongly constrains supersymmetric models with large tanbeta. However, the new results have not been limited to collider searches. In early 2012, the Daya Bay and Reno collaborations have measured a "large" neutrino mixing angle theta13 of about 9 degrees, thereby strongly disfavoring the tribimaximal mixing scenario which has been a paradigm in neutrino physics for the last decade. Also, the Xenon100 experiment has started to probe regions of the SUSY parameter space which are "preferred" by many models. In my talk, I will explore the consequences of these experimental results on generic SO(10) models with Yukawa unification in general, and on the so-called Dermisek-Raby (DR) model in particular. After motivating why we might expect a grand unified gauge group at some larger energy scale, I will introduce the DR-model and discuss how well it fits current data in light of the recent experimental results. I will conclude with predictions of the DR model that are testable at the LHC.
        Speaker: Akin Wingerter
        Slides
      • 3:00 PM
        Light Staus and Enhanced Higgs Diphoton Rate in SUSY SO(10) Yukawa Unification 25m
        In SUSY SO(10) GUT the top, bottom and tau Yukawa couplings unify at the GUT scale. It is shown that in a MSSM scenario restricted by top-bottom-tau Yukawa unification and the SO(10) gauge symmetry the low-energy SUSY spectrum may consist of the 125 GeV Higgs and light, strongly-mixed staus leading to enhanced Higgs diphoton rate.
        Speaker: Marcin Badziak
        Slides
    • 2:00 PM 3:30 PM
      Parallel Session on Dark Matter Small Lecture Hall Mathematics

      Small Lecture Hall Mathematics

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Mr Stephan Huber
      • 2:00 PM
        keV Neutrino Dark Matter 25m
        In this talk, an introduction to keV sterile neutrinos as Dark Matter particles is given. After reviewing the cosmological aspects of (Warm) Dark Matter, I will explain why the topic is interesting for particle physics model building and also point out the differences to ordinary neutrino model building. We will go through a couple of generic models, all of which yield interesting and fundamental connections between the neutrino and the Dark Matter sectors. We finally present some alternative ideas and generalizations.
        Speaker: Alexander Merle
        Slides
      • 2:30 PM
        Correlations between Indirect Detection and Collider Signals in Decaying Dark Matter Scenarios 25m
        Decaying dark matter is an interesting and viable alternative to the common paradigm of stable dark matter. Our purpose is to investigate whether the LHC can probe scenarios of decaying DM. Although the limits on the DM lifetime forbid the direct collider observation of its decays, the couplings responsible for these processes can determine, thanks to crossing symmetries, DM production cross section. In this case a collider analysis outcome can be combined with an eventual dark matter indirect detection in order to get better insight of DM properties. We thus propose a model independent study of operators connecting the dark matter particle with SM model quarks or, possibly, with gauge bosons. Relevant indirect detection limits, namely antiprotons and gamma-rays, already disfavor the simplest configurations of direct coupling of the DM with Standard model states. More promising turn to be instead scenarios in which the interactions of the dark matter are mediated by a scalar state carrying color charge or at least electromagnetic. Its production is not affected by ID limits while at the same time it induces three-body decays of the dark matter. The same couplings also determine decays of the scalar into DM and SM states which can be observed at the collider. In this framework several scenarios can be distinguished, featuring WIMP DM as well as FIMP and superWIMP configurations. For each scenario the relevant constraints from dark matter observables have been investigated. In addition have been identified the current and next future collider searches of new Physics which are relevant for the particle physics framework under consideration.
        Speaker: Giorgio Arcadi
        Slides
      • 3:00 PM
        The 130 GeV gamma-ray line and generic dark matter model building constraints from continuum gamma rays, radio and antiproton data 25m
        An analysis of the Fermi gamma ray space telescope data has recently revealed a resolved gamma-ray feature close to the galactic center which is consistent with monochromatic photons at an energy of about 130 GeV. If interpreted in terms of dark matter (DM) annihilating into \gamma \gamma, this would correspond to a DM particle mass of roughly 130 GeV. The rate for these loop-suppressed processes, however, is larger than typically expected for thermally produced DM. Correspondingly, one would generically expect even larger tree level production rates of standard model fermions or gauge bosons. Here, we quantify this expectation in a rather model-independent way by relating the tree level and loop amplitudes with the help of the optical theorem. As an application, we consider bounds from continuum gamma rays, radio and antiproton data on the tree level amplitudes and translate them into constraints on the loop amplitudes. We find that, independently of the DM production mechanism, any DM model aiming at explaining the line signal in terms of charged standard model particles running in the loop is in rather strong tension with at least one of these constraints, with the exception of loops dominated by top quarks. We stress that attempts to explain the 130 GeV feature with internal bremsstrahlung do not suffer from such difficulties. (based on arXiv:1211.6739)
        Speaker: Masaki Asano
        Slides
    • 2:00 PM 3:30 PM
      Parallel Session on Flavor Physics + Composite Models Lecture Hall 1 Physics

      Lecture Hall 1 Physics

      Bonn

      Convener: Ulrich Nierste
      • 2:00 PM
        Froggatt-Nielsen models with derived Z4 R-symmetry 25m
        The observed hierarchies of fermion masses and mixing angles can be explained in the framework of Froggatt and Nielsen by imposing a family dependent U(1) symmetry. Based on a supersymmetric setting, we consider the possibility of a flavor U(1) R-symmetry which breaks down to a remnant Z4 R-symmetry. While containing R-parity as a subgroup, this discrete R-symmetry provides a solution to the mu-problem by forbidding the bilinear Hu Hd term.
        Speaker: Christoph Luhn
        Slides
      • 2:30 PM
        Natural SUSY from a SU(2)xU(1) Flavor Model 25m
        I am going to present a SUSY flavor model based on a global SU(2) and a gauged U(1) horizontal symmetry. In the fermion sector it closely resembles the successful predictions of the U(2) models for various relations between fermion masses and mixing angles. In the sfermion sector the U(1) acquires a large D-term vev which together with the usual F-term contribution leads to split spectrum in which only gauginos, higgsinos and 3rd generation sfermions are light.
        Speaker: Robert Ziegler
        Slides
      • 3:00 PM
        Spontaneous CP violation in A4xSU(5) with Constrained Sequential Dominance 2 25m
        We revisit a two right-handed neutrino model with two texture zeros, namely an indirect model based on A4 with the recently proposed new type of constrained sequential dominance (CSD2), involving vacuum alignments along the (0,1,-1)^T and (1,0,2)^T directions in flavour space, which are proportional to the neutrino Dirac mass matrix columns. In this paper we construct a renormalizable and unified indirect A4xSU(5) model along these lines and show that, with spontaneous CP violation and a suitable vacuum alignment of the phases, the charged lepton corrections lead to a reactor angle in good agreement with results from Daya Bay and RENO. The model predicts a right-angled unitarity triangle in the quark sector and a Dirac CP violating oscillation phase in the lepton sector of delta approximately 130 degrees, while providing a good fit to all quark and lepton masses and mixing angles.
        Speaker: Martin Spinrath
        Slides
    • 2:00 PM 3:30 PM
      Parallel Session on String Theory Seminar Room BCTP

      Seminar Room BCTP

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Mr Ralph Blumenhagen
      • 2:00 PM
        Discrete Symmetries in Global MSSM-like D-Brane Models 25m
        Discrete symmetries are usually invoked to explain the absence of baryon- and lepton-number violating operators in the MSSM. In global D-brane models, discrete Z_n symmetries arise as remnants of massive Abelian gauge symmetries. I will discuss the conditions for the existence of Z_n symmetries in intersecting D-brane worlds on orbifold backgrounds. An examplary global model with particle physics spectrum will be presented together with its set of family-independent and family-dependent discrete Z_n symmetries.
        Speaker: Gabriele Honecker
        Slides
      • 2:30 PM
        Neutrino mass textures from String symmetries 25m
        tba
        Speaker: George Leontaris
        Slides
      • 3:00 PM
        The heterotic string on magnetized orbifolds 25m
        We give an alternative description of the Schoen manifold as the blow-up of a Z_2 × Z_2 orbifold in which one Z_2 factor acts as a roto-translation. Since for this orbifold the fixed tori are only identified in pairs but not orbifolded, four-dimensional chirality can never be obtained using standard techniques alone. This situation is typical for orbifolds that have vanishing Euler number. However, chirality is recovered when its tori become magnetized. To exemplify this, we construct an SU(5) GUT on the Schoen manifold with Abelian gauge fluxes, which becomes an MSSM with three generations after an appropriate Wilson line is associated to its freely acting involution.
        Speaker: Stefan Groot Nibbelink
        Slides
    • 3:30 PM 4:00 PM
      Coffee Break 30m
    • 4:00 PM 5:40 PM
      Parallel Session on BSM Physics Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Dr Florian Staub (University of Bonn)
      • 4:00 PM
        Gauge Mediation beyond Minimal Flavor Violation 15m
        We discuss a minimal modification of Gauge Mediation in which the messenger sector couples directly to the MSSM matter fields. These couplings are controlled by the same dynamics that explain the flavor hierarchies, and therefore are parametrically as small as the Yukawas. This setup gives rise to an interesting SUSY spectrum that is calculable in terms of a single new parameter. Due to large A-terms, the model can easily accommodate a 125 GeV Higgs with a relatively light SUSY spectrum. The flavor structure depends on the particular underlying flavor model, but flavor-violating effects arise dominantly in the up-sector and are strongly suppressed in Delta C =2 observables. This structure allows to account for the recent observation of direct CP violation in D-meson decays.
        Speaker: Lorenzo Calibbi
        Slides
      • 4:20 PM
        Minimal SUSY SU(5) GUT in the high-scale SUSY scenario 15m
        We revisit the minimal supersymmetric SU(5) grand unified theory (SUSY SU(5) GUT) in the high-scale SUSY scenario. Although the model has been believed to be excluded due to the too short lifetime of proton, we have found that it is possible to evade the experimental constraints on the proton decay rate if the supersymmetric particles have masses much heavier than the electroweak scale. Since the resultant proton lifetime lies in the regions which may be reached in the future experiments, proton decay searches may give us a chance to verify the scenario as well as the supersymmetric grand unified models.
        Speaker: Natsumi Nagata
        Slides
      • 4:40 PM
        Supersymmetric quiver gauge theories: a phenomenological perspective 15m
        The recent LHC discovery of a Higgs-like particle that could be involved in electroweak symmetry breaking places strong bounds on the parameter space of supersymmetric models. In particular, it has been argued that minimal gauge mediated supersymmetry breaking scenarios seem to be at odds with a Higgs boson of ~126 GeV. Supersymmetric quiver gauge theories are an already well-established attractive class of models, communicating SUSY breaking to the visible sector via linking fields. These models arise naturally in high-energy models, and interpolate between general gauge and gaugino mediated supersymmetry breaking. Recently, it has been shown that they can fairly easily accommodate a Higgs boson of ~126 GeV. In this talk, we will explore phenomenological aspects of SUSY quiver models relevant both for colliders and dark matter searches.
        Speaker: Andreas Goudelis
        Slides
      • 5:00 PM
        Little hierarchy problem for new physics just beyond the LHC 15m
        I discuss two possible extensions to the standard model in which an inert singlet scalar state that only interacts with the Higgs boson is added together with some fermions. In one model the fermions provide for a see-saw mechanism for the neutrino masses, in the other model for grand unification of the gauge couplings. Masses and interaction strengths are fixed by the requirement of controlling the finite one-loop corrections to the Higgs boson mass thus addressing the little hierarchy problem. The inert scalar could provide a viable dark matter candidate.
        Speaker: Marco Fabbrichesi
        Slides
      • 5:20 PM
        Automatized generation of non-SUSY RGEs for a general gauge field theory 15m
        In light of the conspicuous absence of SUSY in the energy range explored by the LHC in 2012, non-supersymmetric BSM scenarios are becoming more and more attractive. One key ingredient in exploring such BSM physics are the renormalization group equations (RGEs) that are essential for extrapolating the theory to higher energy scales. Although the 2-loop RGEs for a general quantum field theory are known since a long time, there is no easy-to-use tool that automatically generates them (for supersymmetric models, see the Mathematica package SARAH by F. Staub). In this talk, I will present a set of Python programs that generate the RGEs for an arbitrary model that is specified in terms of its gauge group and particle content. Then I will discuss its application to some simple BSM scenarios like the extension of the SM by vectorlike quarks and leptons. This is work in progress in collaboration with Ingo Schienbein, Florian Staub and Akin Wingerter.
        Speaker: Florian Lyonnet
        Slides
    • 4:00 PM 5:40 PM
      Parallel Session on Dark Matter Small Lecture Hall Mathematics

      Small Lecture Hall Mathematics

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Mr Stephan Huber
      • 4:00 PM
        Effective Theory of Dark Matter Decay into Monochromatic Photons and its Implications: Constraints from Associated Cosmic-Ray Emission 15m
        We show that there exists only a quite limited number of higher dimensional operators which can naturally lead to a slow decay of dark matter particles into monochromatic photons. As each of these operators inevitably induces decays into particles other than photons, we show that the g-lines it induces are always accompanied by a continuum flux of cosmic rays. Hence constraints on cosmic-ray fluxes imply constraints on the intensity of g-lines and vice versa. A comparison with up to date observational bounds shows the possibilities to observe or exclude cosmic rays associated to g-line emission, so that one could better determine the properties of the DM particle, possibly discriminating between some of the operators.
        Speaker: Tiziana Scarna
        Slides
      • 4:20 PM
        Internal Bremsstrahlung Signatures from Dark Matter Annihilations in Light of Direct Detection and Collider Searches 15m
        Over the last years direct dark matter detection, collider searches and gamma ray observations have made tremendous progress towards probing dark matter. In particular searches for gamma ray lines have attracted a lot of attention during the last year. A well known alternative to gamma lines is provided by the hard spectrum of Internal Bremsstrahlung. We investigate the importance of direct detection and collider constraints for IB scenarios and consider prospect for upcoming experiments. With instruments like CTA and Xenon1T it seems even possible to observe dark matter independently both by direct and indirect detection.
        Speaker: Stefan Vogl
        Slides
      • 4:40 PM
        Study of internal bremsstrahlung in the inert doublet model 15m
        We show evidence for the existence of internal bremsstrahlung signatures in the Inert Doublet Model (IDM). In particular, we show they naturally arise in the high dark matter mass regime due to the near-degeneracy of the extra scalar masses. We calculate the corresponding annihilation cross-sections and compare them against constraints coming from direct and indirect dark matter searches. Finally we comment on the possibility of observing this feature in the H.E.S.S experiment.
        Speaker: Camilo A Garcia Cely
        Slides
      • 5:00 PM
        Dark Matter and Co-annihilation 15m
        Co-annihilation can be dominant in many scenarios. We adopt an effective operator approach to the dark matter physics where co-annihilation is dominant in giving the right amount of relic abundance. The related collider constraints on these effective operators are also studied.
        Speaker: Yi Cai
        Slides
      • 5:20 PM
        Anisotropies in the gamma-ray sky from galactic dark matter annihilation 15m
        High-energy photons from dark matter annihilation in dark matter halos and subhalos may contribute to the diffuse gamma-ray background. We study here the features of the angular power spectrum of the signal expected from dark matter annihilation in galactic halos and subhalos. We evaluate the anisotropy signal obtained from various galactic-sized cosmological simulations and discuss the relevant phenomenological consequences.
        Speaker: Valentina De Romeri
        Slides
    • 4:00 PM 5:40 PM
      Parallel Session on Flavor Physics + Composite Models Lecture Hall 1 Physics

      Lecture Hall 1 Physics

      Bonn

      Convener: Ulrich Nierste
      • 4:00 PM
        Neutrino Mass from a d=7 Effective Operator in a SUSY-GUT Framework 15m
        If the d=5 Weinberg operator is forbidden by a discrete symmetry, neutrino mass can be generated by new physics at the TeV scale, which can be tested at the LHC. We want to discuss models where neutrino mass originates from a d=7 operator in the framework of SUSY-GUTs containing an SU(5) subgroup. The embedding in GUT multiplets has phenomenological consequences, which we want to discuss on the basis of a specific example. We will present the cosmological consequences of additional heavy d-quarks that are predicted in this scenario and are constrained by big bang nucleosynthesis and direct searches for heavy nuclei.
        Speaker: Martin Krauss
        Slides
      • 4:20 PM
        CP and Discrete Flavour Symmetries 15m
        We discuss issues surrounding the definition of CP transformations in theories with discrete flavour symmetries. We will show that the consistency of the theory implies that every generalised CP transformation can be interpreted as a representation of an automorphism of the discrete group. Using this formalism, we will discuss various approaches that try to derive CP phases from geometrical properties of groups. In particular, we will clear up issues concerning recent claims about geometrical CP violation in models based on T', clarify the origin of 'calculable phases' in Delta(27) and explain why apparently CP violating scalar potentials of A4 result in a CP conserving ground state. based on http://arxiv.org/abs/1211.6953 , to appear in JHEP
        Speaker: Martin Holthausen
        Slides
      • 4:40 PM
        Electroweak Precision Tests of Composite Higgs Models 15m
        We examine the compatibility of the composite Higgs models with the constraints coming from Electroweak Precision Tests from the low-energy effective theory (EFT) prospective. The EFT approach allows us to capture the common features of the composite Higgs models and incorporate a broad class of explicit models. In our analysis we concentrate on the effects related to a presence of relatively light composite fermionic resonances. We show that some of the typically used observables are non-predictable within the low energy theory and derive the bounds on the parameters of the known explicit models. (Based on a work in collaboration with Christophe Grojean and Giuliano Panico, to appear soon)
        Speaker: Oleksii Matsedonskyi
        Slides
      • 5:00 PM
        General Composite Higgs Models 15m
        We construct a general class of pseudo-Goldstone composite Higgs models, within the minimal SO(5)/SO(4) coset structure. We characterize the main properties these models should have in order to give rise to a Higgs mass around 125 GeV. We assume the existence of relatively light and weakly coupled spin 1 and 1/2 resonances. In absence of a symmetry principle, we introduce the Minimal Higgs Potential (MHP) hypothesis: the Higgs potential is assumed to be one-loop dominated by the SM fields and the above resonances, with a contribution that is made calculable by imposing suitable generalizations of the first and second Weinberg sum rules. We show that a 125 GeV Higgs requires light, often sub-TeV, fermion resonances.
        Speaker: David Marzocca
        Slides
      • 5:20 PM
        A minimally tuned composite Higgs model from an extra dimension 15m
        I present the 5D realization of a composite Higgs model with minimal tuning. The Higgs is a (pseudo-)Goldstone boson from the spontaneous breaking of a global SO(5) symmetry to an SO(4) subgroup. The peculiarity of our construction lies in the specific choice of the SO(5) representations of the 5D fermions which reduces the tuning to the minimal model-independent value allowed by electroweak precision tests. I analyse the main differences between our 5D construction and other descriptions in terms of purely 4D field theories. 5D models show a generic difficulty in accommodating a light Higgs without reintroducing large corrections to the S parameter. I propose a specific construction in which this tension can be relaxed. I discuss the spectrum of the top partners in the viable regions of parameter space and predict the existence of light exotic quarks, Υ, of charge 8/3 whose striking decay channel Υ → W +W +W +b can lead to either exclusion or confirmation of the model in the near future.
        Speaker: Andrea Thamm
        Slides
    • 4:00 PM 5:40 PM
      Parallel Session on String Theory Seminar Room BCTP

      Seminar Room BCTP

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Mr Ralph Blumenhagen
      • 4:00 PM
        Inflation in the random SUGRA landscape 15m
        tba
        Speaker: Francisco Pedro
        Slides
      • 4:20 PM
        Moduli Stabilization and Cosmology With Poly-Instanton Corrections 15m
        In the context of type IIB orientifold compactifications, we present a new class of Kaehler moduli inflation realized in the LARGE volume scenarios. The inflaton is a Kaehler modulus corresponding to the volume of a so-called "Wilson" divisor which is relevant for supporting the poly-instanton corrections. Further, this standard single-field model is generalized into a two-field model by the inclusion of respective axion modulus, and large non-Gaussianity signatures are observed in beyond slow-roll regime. Note: The talk would be based on the papers arXiv:1205.2485 (JHEP 1206 (2012) 162), arXiv:1208.1160 (JHEP 1211 (2012) 101) and arXiv:1301.6076 (JHEP 1303 (2013) 061).
        Speaker: Pramod Shukla
        Slides
      • 4:40 PM
        A Zip-Code for Quarks Leptons and Higgs Bosons 15m
        The location of matter fields and the pattern of gauge symmetry in extra dimensions are crucial ingredients for string model building. We analyze realistic MSSM models from the heterotic Z6 Mini-Landscape and extract those properties that are vital for their success. We find that Higgs bosons and the top quark are not localized in extra dimensions and live in the full D=10 dimensional space-time. The first two families of quarks and leptons, however, live at specific fixed points in extra dimensional space and exhibit a (discrete) family symmetry. Within a newly constructed Z2XZ4 orbifold framework we further elaborate on these location properties and the appearance of discrete symmetries. A similar geometrical picture emerges. This particular Zip-code for quarks, leptons and Higgs bosons seems to be of more general validity and thus a useful guideline for realistic model building in string theory.
        Speaker: Paul Oehlmann
        Slides
      • 5:00 PM
        Where is the PdV term in the first law of black hole thermodynamics? 15m
        A PdV term is introduced into the first law of black hole thermodynamics, with the volume being defined to be the variable thermodynamically conjugate to the pressure that arises from the cosmological constant. The black hole equation of state then bears a remarkable similarity to the van der Waals equation. The effect of this new term in the equation of state will be explored.
        Speaker: Brian Dolan
        Slides
      • 5:20 PM
        R Symmetries from Heterotic Orbifold Compactifications 15m
        We consider the string theory origin of R-charge conservation laws in heterotic orbifold compactifications, deriving the corresponding string coupling selection rule for factorizable and non-factorizable orbifolds, with prime ordered and non-prime ordered point groups. R-charge conservation arises due to symmetries among the worldsheet instantons that can mediate the couplings. Among our results is a previously missed non-trivial contribution to the conserved R-charges from the Gamma-phases in non-prime orbifolds, which weakens the R-charge selection rule. Symmetries among the worldsheet instantons can also lead to additional selection rules for some couplings. We make a similar analysis for Rule 4 or the 'torus lattice selection rule'.
        Speaker: Damian Kaloni Mayorga Pena
        Slides
    • 7:30 PM 10:00 PM
      Conference Dinner Godesburg (Bad Godesberg)

      Godesburg

      Bad Godesberg

    • 8:00 AM 9:00 AM
      Registration Zeichensaal (1st floor)

      Zeichensaal (1st floor)

      Bonn

      Wegelerstr. 10 53115 Bonn
    • 9:00 AM 10:00 AM
      Review Talk Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Ignatios Antoniadis
      • 9:00 AM
        String Phenomenology in the Higgs Era 55m
        Speaker: Mr Luis Ibanez
        Slides
    • 10:00 AM 10:30 AM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Ignatios Antoniadis
      • 10:00 AM
        New Aspects of Heterotic/F-theory duality 25m
        Speaker: Mrs Lara Anderson
        Slides
    • 10:30 AM 11:00 AM
      Coffee Break 30m
    • 11:00 AM 12:30 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Ignatios Antoniadis
      • 11:00 AM
        Non-geometric string compactification 25m
        Speaker: Mr Ralph Blumenhagen
        Slides
      • 11:30 AM
        Hypercharge flux and U(1)s in F-theory GUTs 25m
        Speaker: Mr Eran Palti
        Slides
      • 12:00 PM
        Precision gauge unification in strings 25m
        Speaker: Prof. Michael Ratz (TU Munich)
        Slides
    • 12:30 PM 2:00 PM
      Lunch 1h 30m
    • 2:00 PM 3:30 PM
      Parallel Session on Formal BSM Seminar Room BCTP

      Seminar Room BCTP

      Bonn

      Convener: Mr Joseph Conlon
      • 2:00 PM
        The NMSSM with F-theory unified boundary conditions 25m
        We study the phenomenological viablility of a constrained NMSSM with parameters subject to unified conditions from F-theory GUTs. We find that very simple assumptions about modulus dominance SUSY breaking in F-theory unification lead to a predictive set of boundary conditions , consistent with all phenomenological constraints.
        Speaker: Luis Aparicio
        Slides
      • 2:30 PM
        The Higgs mass from stringy high scale SUSY 25m
        The Higgs quartic coupling has now been indirectly measured at the electroweak scale. Assuming no new low-scale physics, its running is known and, together with gauge and Yukawa couplings, it is a crucial new piece of information constraining UV completions of the Standard Model. In particular, supersymmetry broken at an intermediate or high energy scale with low tan(beta) is consistent with present data and has an independent theoretical appeal. We analyze the possible string-theoretic motivations for tan(beta)~1 in Higgs sectors realized on either 6- or 7-branes. We identify specific geometries where a vanishing quartic coupling may arise naturally and specify the geometrical problems which need to be solved to determine its precise value in the generic case. Finally we consider models with negative quartic couplings at the SUSY breaking scale.
        Speaker: Alexander Knochel
        Slides
      • 3:00 PM
        Scattering in general gauge mediation and holography 25m
        Supersymmetry breaking and its mediation can be reformulated as a scattering problem. This talk will outline how pion scattering and "bottom up" AdS/QCD models may be extended to describe strongly coupled hidden sectors that break supersymmetry. We look at what can "in-principle" be measured and what it can actually predict about the MSSM.
        Speaker: Moritz McGarrie
        Slides
    • 2:00 PM 3:30 PM
      Parallel Session on Higgs Physics Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Mr Howard Haber
      • 2:00 PM
        Double Higgs production in a singlet-extended Higgs model 25m
        In this talk we revisit the simplest Higgs sector extension containing an additional scalar singlet. We perform a detailed analysis of double Higgs production at the LHC, exploring in particular the bbWW channel. We also comment the relevance of the results for Higgs portal DM models.
        Speaker: Jesus M. Moreno
        Slides
      • 2:30 PM
        BSM models face Higgs coupling data 25m
        We discuss how to probe Beyond Standard Model theories with Higgs coupling data. I will discuss, first, how much Higgs couplings deviate from their Standard Model values in different theories if no other states are accessible at the LHC. We will argue that this is the experimental precision required in the measurement of Higgs couplings. Finally, I will discuss how present and future Higgs coupling data can probe natural SUSY models. Refs: 1) Gupta, Rzehak and Wells (arXiv:1206.3560) 2) Gupta, Montull and Riva (arXiv:1212.5240)
        Speaker: Rick Sandeepan Gupta
        Slides
      • 3:00 PM
        Engineering a 125 GeV Higgs in the MSSM 25m
        The a 125 GeV Higgs boson can be most naturally realized within the MSSM if there is significant stop squark mixing. This talk deals with the difficulties in obtaining large stop mixing from high-scale SUSY breaking models. We detail the necessary conditions on the high-scale soft terms, and review several scenarios of SUSY breaking mediation with regards to their compatibility with maximal stop mixing. We also present a new model in which maximal stop mixing can be naturally realized within gauge-mediated SUSY breaking.
        Speaker: Felix Bruemmer
        Slides
    • 3:30 PM 4:00 PM
      Coffee Break 30m
    • 4:00 PM 6:00 PM
      Parallel Session on LHC and DM Small Lecture Hall Mathematics

      Small Lecture Hall Mathematics

      Bonn

      Convener: Leszek Roszkowski
      • 4:00 PM
        Naturalness of Light Neutralino Dark Matter 15m
        We (P. Grothaus, M. Lindner, Y. T.) investigate neutralino dark matter in the low-energy phenomenological minimal supersymmetric standard model taking account of the newest results from the Large Hadron Collider as well as all other experimental bounds from collider physics and the cosmological abundance. We find that near updates of direct searches signicantly rule out a large area of the parameter space, but will not rise the minimal value of fine-tuning. There is a band at small neutralino masses, where the fine-tuning stays low even for cross-sections of about 10^{-16} pb.
        Speaker: Yasutaka Takanishi
        Slides
      • 4:20 PM
        Dark matter, singlet extensions of the nuMSM, and symmetries 15m
        The Lyman-alpha forest bound severely constrains the non-resonant production of warm dark matter in the nuMSM. It has been shown that an extension of the nuMSM by a Higgs singlet phi can provide a dark matter production mechanism through the decays of phi that readily satisfies or escapes the Lyman-alpha bound. I will discuss the astrophysical and cosmological constraints on such models and demonstrate how the required pattern of masses and couplings can be realized with underlying symmetries.
        Speaker: Kyle Allison
        Slides
      • 4:40 PM
        SUSY-QCD corrections to neutralino-stop co-annihilation 15m
        We have computed the one-loop SUSY-QCD corrections for neutralino-stop coannihilation into electroweak gauge and Higgs bosons in the MSSM. I will show that these annihilation channels are phenomenologically relevant within the pMSSM, in particular in the light of the observation of the Higgs boson with a mass of about 126 GeV at the LHC. I will show numerical results for the cross sections and their impact on the neutralino relic density and demonstrate that the corrections have to be considered in order to match with experimental precision from Planck results.
        Speaker: Quentin Le Boulc'h
        Slides
      • 5:00 PM
        Higgs couplings after Moriond 2013 15m
        Performing a fit to all publicly available data, we analyze the extent to which the latest results from the LHC and Tevatron constrain the couplings of the Higgs boson-like state at ~ 125 GeV, as well as invisible (or undetected) decays. This is based on arXiv:1212.5244 (to appear in JHEP) and G. Belanger, BD, U. Ellwanger, J. F. Gunion, S. Kraml, in preparation.
        Speaker: Beranger Dumont
        Slides
      • 5:20 PM
        Higgs signal at the LHC for the 4D Composite Higgs Model 15m
        General Composite Higgs models provide an elegant solution to the hierarchy problem present in the Standard Model (SM) and give an alternative pattern leading to the mechanism of electroweak symmetry breaking (EWSB). We present a recently proposed realistic realization of this general idea analyzing in detail the Higgs production and decay modes. Comparing them with the latest Large Hadron Collider (LHC) data We show that the 4D Composite Higgs Model (4DCHM) could provide a better explanation than the SM to the LHC results pointing to the discovery of a Higgs like particle at 125 GeV.
        Speaker: Daniele Barducci
        Slides
      • 5:40 PM
        Constraints on models with universal extra dimensions from dilepton searches at the LHC 15m
        Models with universal extra dimensions predict that each Standard Model particle is accompanied by a tower of Kaluza-Klein resonances. Canonical searches for the production and cascade decays of first Kaluza-Klein modes through missing transverse momentum signatures suffer in general from low detection efficiencies because of the rather compressed Kaluza-Klein particle mass spectrum. We analyze signatures from the production of second Kaluza-Klein states which can decay into Standard Model particles and thus do not result in any missing transverse momentum. Such signatures provide a strong sensitivity, and are of particular interest as they would allow for a clear distinction between extra dimension models and other models of new physics like supersymmetry.
        Speaker: Lisa Edelhäuser
        Slides
    • 4:30 PM 6:30 PM
      Parallel Session on Formal BSM Seminar Room BCTP

      Seminar Room BCTP

      Bonn

      Convener: Mr Joseph Conlon
      • 4:30 PM
        Supersymmetric SO(10) GUTs with sliding scales 15m
        We construct supersymmetric $SO(10)$ models with different intermediate scales, consistent with gauge coupling unification. We found the complete list of sets of fields that can be added in each regime that allows to preserve unification and a "sliding scale mechanism". Using mSugra boundary conditions we calculate some particular combinations of soft SUSY breaking terms, called "invariants", that depend on the squark, slepton and gaugino mass spectra. We classify these invariants into a small number of sets, and show that their measurements contain indirect information about the class of models and the scale of beyond-MSSM physics. Talk based on the paper Hep-ph/1301.6085
        Speaker: Carolina Arbeláez
        Slides
      • 4:50 PM
        One-loop Corrections to Dark Radiation Production in LARGE Volume Models 15m
        Dark radiation is produced in LARGE volume models in which reheating is driven by the volume modulus decaying to the visible sector. Decays of this modulus to its axion partner provide the dark radiation. I will discuss the effects of one-loop radiative corrections to the only competitive MSSM decay channel: the decay into Higgs pairs via the Giudice-Masiero term. This alone will more precisely determine the relative fraction of dark radation produced, since by contrast all loop corrections to the volume axion decay channel are Planck-suppressed. Assuming the Giudice-Masiero coupling is fixed at the string scale by a shift symmetry in the Higgs sector, we get a prediction for the effective number of neutrino species, N_{eff}. The result is too large to be consistent with recent WMAP and Planck data, so the minimal model is ruled out.
        Speaker: Stephen Angus
        Slides
      • 5:10 PM
        Heterotic Calabi-Yau Compactifications with Flux 15m
        As is well known, a standard heterotic compactification to a maximally symmetric space-time does not allow for fluxes to stabilise moduli. By relaxing the condition of a maximally symmetric spacetime, I show how this no-go theorem may be avoided. I will work with the example of a domain wall for concreteness. After moduli stabilisation, the domain wall vacuum may be lifted by means of e.g non-perturbative effects such as a gaugino-condensate.
        Speaker: Eirik Eik Svanes
        Slides
      • 5:30 PM
        Proton Stability and Gauge Coupling Unification constraints on string derived models 15m
        An appealing proposition to explain the suppression of proton decay mediating and other operators, in heterotic string derived models, is the existence of a low scale $Z^\prime$ that forbids the undesired operators, and thus may arise only after $Z^\prime$ breaking. We will discuss the constraints on such a $Z^\prime$ arising in string derived models and focus on the constraints arising from gauge coupling unification. In two contrasting cases we will show that the phenomenological constraints at the electroweak scale necessitate that the $Z^\prime$ charges are embeddable in $E_6$. We will discuss how free fermionic models with the required properties may be constructed.
        Speaker: Viraf Mehta
        Slides
      • 5:50 PM
        Fermion Mixing & Flavor Symmetries: Ideas & Models 15m
        I will present ideas of how to predict fermion mixing with the help of discrete non-abelian flavor symmetries which are broken in a particular way and give examples of models in which such ideas are realized. In the leptonic sector emphasis will be put on the possibility to explain the recently measured value of the reactor mixing angle and the possibilities to predict CP violating phases.
        Speaker: Claudia Hagedorn
        Slides
    • 4:30 PM 6:30 PM
      Parallel Session on Higgs Physics Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Physikalisches Institut Nussallee 12 53115 Bonn
      Convener: Mr Howard Haber
      • 4:30 PM
        Modified Higgs Physics from Composite Light Flavors 15m
        Nature seems to have chosen a light scalar to unitarize WW scattering. Yet, the Higgs discovery at the LHC does not fully resolve the electroweak symmetry breaking puzzle and one is left to find out what renders the light scalar naturally insensitive to (unknown) very short distance dynamics. New Physics models where the Higgs emerges as a Goldstone boson of some new strong dynamics at the TeV scale provide an appealing solution to this problem, alternate to supersymmetry. In this framework, the large top mass requires that the top quak (and left-handed bottom) is a composite object. There are however no low-energy hint regarding whether the first and second quark generations (and right-handed bottom) are also composite objects or remain elementary states up to very high energies. We argue in this talk that radiative Higgs couplings are relatively sensitive probes to the degree of compositeness of the light quark flavors. We further elaborate on how and to what extend Higgs rate measurements at the LHC can be used to infer the flavor structure of the strong dynamics.
        Speaker: Cedric Delaunay
        Slides
      • 4:50 PM
        The Effective Chiral Lagrangian for a Light Dynamical Higgs 15m
        The basis of CP-even chiral effective operators describing a dynamical Higgs sector, is generalized to the case in which the Higgs-like particle is light. Gauge a nd gauge-Higgs operators are considered up to mass dimension five. This analysis completes the tool needed to explore at leading order the connection between linear realizations of the electroweak symmetry breaking mechanism - whose extreme case is the Standard Model - and non-linear realizations with a light Higgs-like particle present. It may also provide a model-independent guideline to explore which exotic gauge-Higgs couplings may be expected, and their relative strength to Higgsless observable amplitudes. The analysis is reduced by nature to the consideration of flavour -conserving operators except for the standard Yukawa-type fermionic couplings
        Speaker: Juan Alberto Yepes
        Slides
      • 5:10 PM
        Multiple Higgs and Vector boson production beyond the Standard Model 15m
        If the electroweak symmetry breaking is originated from a strongly coupled sector, as for instance in composite Higgs models, the Higgs boson couplings can deviate from their Standard Model values. In such cases, at suficiently high energies there could occur an onset of multiple Higgs boson and longitudinally polarised electroweak gauge boson (VL) production. We study the sensitivity to anomalous Higgs couplings in inelastic processes with 3 and 4 particles (either Higgs bosons or VL's) in the final state. We show that, due to the more severe cancellations in the corresponding amplitudes as compared to the usual 2 to 2 processes, large enhancements with respect to the Standard Model can arise even for small modications of the Higgs couplings. In particular, we find that triple Higgs production provides the best multiparticle channel to look for these deviations. We briefly explore the consequences of multiparticle production at the LHC.
        Speaker: Alexandra Oliveira
        Slides
      • 5:30 PM
        Higgs to diphoton and vanilla new Physics 15m
        After an introduction on the current experimental status of the Higgs boson, I will study the effect of new vector-like fermions on the h -> gamma gamma channels, in which the effect of new physics may be already showing up. In particular, I will analyze colored and uncolored fermions in their smallest SU(2) representations, and the modifications to the previously mentioned channels in regions allowed by electroweak precision measurements.
        Speaker: Enrico Bertuzzo
        Slides
      • 5:50 PM
        Probing the two light Higgs scenario in the NMSSM with a low-mass pseudoscalar 15m
        We propose a simultaneous collider search strategy for a pair of scalar bosons in the NMSSM through the decays of a very light pseudoscalar. The massive scalar has a mass around 126 GeV while the lighter one can have a mass in the vicinity of 98 GeV, thus explaining an apparent LEP excess, or be much lighter. The successive decay of this scalar pair into two light pseudoscalars, followed by leptonic pseudoscalar decays, produces clean multi-lepton final states with small or no missing energy. We emphasize that a dedicated experimental search for multi-lepton final states can be a useful probe for this scenario and, in general, for the NMSSM Higgs sector.
        Speaker: Chan Beom Park
        Slides
      • 6:10 PM
        Higgs phenomenology in the triplet extension of the MSSM 15m
        Extending the Higgs sector of the MSSM by triplets alleviates the little hierarchy problem and naturally allows for enhancements in the diphoton decay rate of the lightest CP-even Higgs. In this talk the Higgs phenomenology of this theory with a hyperchargeless triplet is analyzed. In particular, for any value m_A > m_h there is a parameter region where the CP-even Higgs sector appears at colliders as the SM one, except for loop-induced corrections. At small m_A, moreover, there exists a second parameter region where the lightest CP-even Higgs phenomenology is as in the Standard Model except for decays into bottoms and taus. Improvements in the CP-odd and charged Higgs searches will be worthwhile to discriminate this scenario from the Standard Model.
        Speaker: Germano Nardini
        Slides
    • 6:00 PM 7:30 PM
      Parallel Session on LHC and DM Small Lecture Hall Mathematics

      Small Lecture Hall Mathematics

      Bonn

      Convener: Leszek Roszkowski
      • 6:00 PM
        Non-Equilibrium Thermal Dark Matter 25m
        Dark Matter (DM) may have been produced out of thermal equilibrium in the early universe. This possibility has been investigated before through the so-called "Freeze-in" scenario of Feebly-Interacting-Massive-Particles. In this talk I show that this is just a particular case of a general out-of-equilibrium-generated DM, by describing new alternatives which are totally different at a fundamental level. As an example, Grand Unification Theories can naturally lead to such mechanisms, where a DM with unsuppressed couplings can populate the universe to the relic density values we observe today, while never reaching equilibrium with the thermal bath.
        Speaker: Bryan Zaldivar
        Slides
      • 6:30 PM
        Interplay between Fermi gamma-ray lines and collider searches 25m
        We explore the interplay between lines in the gamma-ray spectrum and LHC searches involving missing energy and photons. As an example, we consider a singlet Dirac fermion dark matter with the mediator for Fermi gamma-ray line at 130 GeV. A new chiral or local U(1) symmetry makes weak-scale dark matter natural and provides the axion or Z' gauge boson as the mediator connecting between dark matter and electroweak gauge bosons. In these models, the mediator particle can be produced in association with a monophoton at colliders and it produces large missing energy through the decays into a DM pair or ZZ Z gamma with at least one Z decaying into a neutrino pair. We adopt the monophoton searches with large missing energy at the LHC and impose the bounds on the coupling and mass of the mediator field in the models. We show that the parameter space of the Z' mediation model is already strongly constrained by the LHC 8 TeV data, whereas a certain region of the parameter space away from the resonance in axion-like mediator models are bounded. We foresee the monophoton bounds on the Z' and axion mediation models at the LHC 14 TeV.
        Speaker: Hyun Min Lee
        Slides
      • 7:00 PM
        Two ultimate tests of constrained supersymmetry 25m
        The discovery of the Higgs boson at 126 GeV seems to imply masses in the multi-TeV regime for the simplest constrained SUSY models. Thus, with the exception of limited regions of the parameter space where stop mixing is large, in these scenarios the new physics might be out of reach even for the 14 TeV run. We discuss the prospects of using two alternative and complementary ways to explore the high-mass regions of the parameter space of the CMSSM and the NUHM: 1) We quantify the impact of reducing the experimental error in the measurement of $BR(B_s\to\mu^+\mu^-)$ to about 5$\%$ around the Standard Model value. We show that, in the CMSSM, $BR(B_s\to\mu^+\mu^-)$ has power to disfavor the A-funnel region that, otherwise, could neither be probed by direct SUSY searches at the LHC nor by direct dark matter searches. We also discuss the case of the NUHM, where the constraining power of $BR(B_s\to\mu^+\mu^-)$ is not as significant. 2) We show that the multi-TeV region of the parameter space of both models will be, for the most part, sensitive to direct dark matter searches in future one-tonne detectors. A nearly complete experimental testing of the CMSSM over multi-TeV ranges of superpartner masses, far beyond the reach of direct SUSY searches at the LHC, can therefore be achievable. For the NUHM, it will be more difficult to derive detailed information, but light can be shed on the model in a few cases.
        Speaker: Kamila Kowalska
        Slides
    • 7:30 PM 9:00 PM
      PI Meeting
    • 8:00 AM 9:00 AM
      Registration Zeichensaal (1st floor)

      Zeichensaal (1st floor)

      Bonn

      Wegelerstr. 10 53115 Bonn
    • 9:00 AM 10:00 AM
      Review Talk Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Luis Ibanez
      • 9:00 AM
        Review BSM Phenomenology 55m
        Speaker: Mr Kiwoon Choi
        Slides
    • 10:00 AM 10:30 AM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Luis Ibanez
      • 10:00 AM
        Aspects of string phenomenology in the LHC era 25m
        Speaker: Mr Ignatios Antoniadis
        Slides
    • 10:30 AM 11:00 AM
      Coffee Break 30m
    • 11:00 AM 12:30 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Luis Ibanez
      • 11:00 AM
        Origin and Phenomenology of Dark Radiation 25m
        Speaker: Mr Joseph Conlon
        Slides
      • 11:30 AM
        Probing BSM physics with inflationary gravitational waves 25m
        Speaker: Mr Takeo Moroi
        Slides
      • 12:00 PM
        New regions in the NMSSM with a 125 GeV Higgs 25m
        Speaker: Mr Marek Olechowski
        Slides
    • 12:30 PM 2:00 PM
      Lunch 1h 30m
    • 2:00 PM 4:00 PM
      Plenary Session Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Wegelerstr. 10 53115 Bonn
      Convener: Stefan Pokorski
      • 2:00 PM
        Axion Physics 25m
        Speaker: Mr Jihn E. Kim
        Slides
      • 2:30 PM
        Composite Higgs vs LHC data 25m
        Speaker: Andrea Wulzer
        Slides
      • 3:00 PM
        Status of constrained SUSY in light of LHC data 25m
        Speaker: Leszek ROSZKOWSKI
        Slides
      • 3:30 PM
        Charginos and neutralinos, Higgs physics and LHC 25m
        Speaker: Mr Alberto Casas
        Slides
    • 4:00 PM 4:30 PM
      Coffee Break 30m
    • 4:30 PM 5:30 PM
      Final Talk Big Lecture Hall Mathematics

      Big Lecture Hall Mathematics

      Bonn

      Convener: Stefan Pokorski
      • 4:30 PM
        Physics Post LHC 8: Quo Vadis? 55m
        Speaker: Mr Graham Ross
        Slides