High Precision for Hard Processes at the LHC

Name: High Precision for Hard Processes at the LHC
Start: 2006-09-06T09:00:00+02:00
End: 2006-09-08T18:10:00+02:00
Location: ETH Zurich

6 Sept 2006, 09:00 → 8 Sept 2006, 18:10 Europe/Zurich

ETH Zurich

Description

HP2 workshop home page

Wednesday 6 September
- Day 1
  - 1
    
    Road to the LHC: passing by the Tevatron
    
    Speaker: Joey Huston (Michigan)
    
    Slides
  - 2
    
    Latest results from MC@NLO
    
    Speaker: Bryan Webber (Cambridge)
    
    Slides
  - 3
    
    The Unitarity Bootstrap for QCD Loop Amplitudes
    
    Speaker: David Kosower (Saclay)
    
    Slides
  - 10:30
    
    Coffee
  - 4
    
    Higgs+dijets production at NLO with semi-numerical methods
    
    Speaker: Giulia Zanderighi (CERN)
    
    Slides
  - 5
    
    Can we find a computationally efficient loop algorithm?
    
    Even disregarding the intrinsic necessity of some new algorithm for numerical evaluation of one-loop diagrams, and even in case it has no intrinsic necessity at all, a probable decision about its goodness is possible inductively by studying its success. Success here means fruitfulness in consequences, in particular in verifiable consequences, i.e., consequences demonstrable without the new algorithm, whose proofs with the help of the new algorithm, however, are considerably simpler and easier to discover, and make it possible to contract into one proof many different proofs.
    
    Speaker: Giampiero Passarino (Torino)
    
    Slides
  - 6
    
    Precise predictions for the Higgs-boson decay H -> WW/ZZ -> 4 fermions
    
    The decay of the Standard Model Higgs boson into four fermions via a virtual W-boson or Z-boson pair is one of the most important decay modes in the Higgs-boson search at the LHC. We present a calculation of the first order radiative corrections to these processes, including higher order improvements. The intermediate W- and Z-boson resonances are consistently described using the complex mass scheme, which is explained in the talk. Numerical results for partial decay widths and angular and invariant-mass distributions are shown.
    
    Speaker: Ansgar Denner (PSI Zurich)
    
    Slides
  - 12:15
    
    Lunch
  - 7
    
    Numerical evaluation of one-loop amplitudes
    
    Speaker: David Soper (Oregon)
    
    Slides
  - 8
    
    Automated QCD calculations at NLO
    
    I will discuss various technical aspects related to automated QCD calculations at NLO: - the recursive calculation of amplitudes, - the organization of the colour structures, - the automated generation of subtraction terms, - the numerical tensor reduction of loop integrals.
    
    Speaker: Stefan Weinzierl (Mainz)
    
    Slides
  - 9
    
    Unitarity Cuts and QCD Loop Amplitudes
    
    Speaker: Ruth Britto (Amsterdam)
    
    Slides
  - 15:15
    
    Coffee
  - 10
    
    Loop amplitudes from MHV diagrams (I)
    
    Speaker: Gabriele Travaglini (Queen Mary)
    
    Slides
  - 11
    
    Exclusive Drell-Yan production at NN LO
    
    I describe a parton-level Monte Carlo calculation of Drell-Yan production at next-to-next-to-leading order. The calculation is performed with a subtraction scheme in which the subtraction term is the squared matrix element itself.
    
    Speaker: William Kilgore (Brookhaven)
    
    Slides
  - 12
    
    Status of NNLO corrections to e+e- -> 3j
    
    Speaker: Thomas Gehrmann (Uni Zurich)
    
    Slides
  - 16:50
    
    Coffee
  - 13
    
    Computing one-loop amplitudes at the integrand level
    
    We show how to extract the coefficients of the 4-, 3-, 2- and 1-point one-loop scalar integrals from the full one-loop amplitude of arbitrary scattering processes. In a similar fashion, also the rational terms can be derived. Basically no information on the analytical structure of the amplitude is required, making our method appealing for an efficient numerical implementation.
    
    Speaker: Roberto Pittau (Torino)
    
    Slides
  - 14
    
    Higgs Production via Gluon Fusion: QCD corrections to Squark Loops
    
    The loop-induced processes gg -> h,H,A provide the dominant Higgs boson production mechanisms at the Tevatron and LHC in a large range of the minimal supersymmetric extension of the Standard Model. For squark masses below ~400 GeV squark loop contributions become important in addition to the top and bottom quark loops. The two-loop QCD corrections to the squark contributions of these processes are determined including the full squark and Higgs mass dependences. They turn out to be of O(10-100%) and thus important for the Tevatron and LHC experiments. Squark mass effects of the K factors can be of O(20-30%).
    
    Speaker: Michael Spira (PSI)
    
    Slides
  - 15
    
    QCD corrections to vector-boson fusion processes
    
    Speaker: Carlo Oleari (Bicocca, Milano)
    
    Slides
Thursday 7 September
- Day 2
  - 16
    
    Prospects for measurements of hard scattering processes at the LHC
    
    After a very brief report on the status of the LHC preparations (machine and detectors) I will try to summarize the current understanding of how well specific hard scattering processes can be measured at the LHC, and what the relevance of these measurements is. Examples are the Drell-Yan process, top production, W/Z + jet as well as inclusive jet production.
    
    Speaker: Guenther Dissertori (ETH Zurich)
    
    Slides
  - 17
    
    PDF issues at LHC
    
    Speaker: W. James Stirling (Durham)
    
    Slides
  - 18
    
    The two-loop anomalous dimension matrix for soft gluon exchange
    
    Resummation of soft-gluon exchange for QCD hard scattering requires an anomalous dimension matrix in color space. We compute this matrix directly for arbitrary massless processes for the first time at two loops, and show that it is proportional to the one-loop matrix. This result reproduces the 1/eps pole terms in previous explicit two-loop computations, and predicts such terms for arbitrary processes. The proportionality of the one- and two-loop matrices also makes it possible to resum in closed form the next-to-next-to-leading logarithms for arbitrary processes.
    
    Speaker: Lance Dixon (SLAC)
    
    Slides
  - 10:30
    
    Coffee
  - 19
    
    Recent progress in splitting functions
    
    Speaker: Sven Moch (DESY Zeuthen)
    
    Slides
  - 20
    
    Multi-loop parton distributions for large and small x
    
    Speaker: Giuseppe Marchesini (Bicocca, Milano)
    
    Slides
  - 21
    
    NLO + Shower: a new approach
    
    Speaker: Paolo Nason (Bicocca, Milano)
    
    Slides
  - 12:15
    
    Lunch
  - 22
    
    Techniques for one-loop tensor integrals in many-particle processes
    
    In the calculation of NLO corrections to multi-leg processes serious numerical problems arise in the commonly used Passarino-Veltman reduction of tensor to scalar integrals in exceptional phase-space configurations. In this talk two alternative methods are discussed solving this problem. One of the methods relies on a seminumerical approach, in which a specific tensor coefficient is evaluated numerically, replacing the standard scalar integral in the list of basis integrals. The other method makes use of expansions in terms of small Gram and (if needed) other kinematical determinants. Both procedures have been successfully applied to the NLO electroweak corrections to e+e- --> 4fermions.
    
    Speaker: Stefan Dittmaier (MPI, Munich)
    
    Slides
  - 23
    
    Higgs + 2 jet signals from gluon fusion
    
    Speaker: Dieter Zeppenfeld (Karlsruhe)
    
    Slides
  - 24
    
    Recursive equations for arbitrary scattering processes
    
    Speaker: Costas Papadopoulos (Demokritos Athens)
    
    Slides
  - 15:15
    
    Coffee
  - 25
    
    NLO corrections to $pp/pbar p to tbar t + jet + X$
    
    Speaker: Peter Uwer (CERN)
    
    Slides
  - 26
    
    Threshold resummation for high-transverse-momentum Higgs production
    
    We perform the all-order resummation of large logarithmic(NLL) QCD corrections for the process pp ->H+ X when the Higgs boson H is produced at high transverse momentum.
    
    Speaker: Daniel de Florian (Buenos Aires)
    
    Slides
  - 27
    
    The GOLEM project: status and applications
    
    In this talk I review the status of our GOLEM project. The acronym stands for "General One-Loop Evaluator of Matrix-elements". This tool is designed to allow for an efficient and numerically stable evaluation of multi-particle one-loop amplitudes which are needed for the precise description of numerous processes relevant for the upcoming LHC. First applications are presented.
    
    Speaker: Thomas Binoth (Edinburgh)
    
    Slides
  - 16:50
    
    Coffee
  - 28
    
    Soft-gluon effects in WW production at hadron colliders
    
    Speaker: Massimiliano Grazzini (INFN, Firenze)
  - 29
    
    Madgraph beyond the Standard Model
    
    Madgraph and Madevent are a well established tool to evaluate tree-level amplitudes and create unweighted events for processes with a large number of external particles at the LHC. For the Madgraph collaboration I review the status, some physics complications and recent calculations of Madgraph/Madevent for physics beyond the Standard Model.
    
    Speaker: Tilman Plehn (Edinburgh)
    
    Slides
Friday 8 September
- Day 3
  - 30
    
    Beyond the Standard Model Physics at the LHC
    
    Speaker: Alex Pomarol (Barcelona)
    
    Slides
  - 31
    
    The dipole-antenna approach to shower monte carlo's
    
    Speaker: Walter Giele (Fermilab)
    
    Slides
  - 32
    
    A new method to compute multileg one-loop cross sections
    
    Speaker: Stefano Catani (INFN, Firenze)
    
    Slides
  - 10:30
    
    Coffee
  - 33
    
    Twistor Inspired Higgs Phenomenology
    
    We discuss how the twistor inspired methods can be used to derive compact expressions for multi-parton amplitudes involving Higgs bosons (in the limit that the top quark mass is heavy producing an effective Higgs-gluon interaction).
    
    Speaker: Nigel Glover (Durham)
    
    Slides
  - 34
    
    Loop amplitudes from MHV diagrams (II)
    
    Speaker: Andreas Brandhuber (Queen Mary)
    
    Slides
  - 35
    
    Reduction with spinor formalism
    
    Speaker: Bo Feng (Imperial College)
    
    Slides
  - 12:15
    
    Lunch
  - 36
    All-multiplicity amplitudes in QCD
    
    I will discuss the construction of amplitudes at one-loop in QCD using the unitarity bootstrap approach. I will detail the techniques needed to build the rational contributions to these amplitudes as well as highlighting not only their application to fixed-multiplicity amplitudes but also to all-multiplicity amplitudes.
    
    Speaker: Darren Forde (Saclay)
    
    Slides
    
    forde.pdf
    
    forde.pdf
    
    forde.ppt
  - 37
    
    The Rational Part of QCD Amplitudes
    
    Speaker: Chuan-jie Zhu (Beijing)
    
    Slides
  - 38
    
    On the IR singularities of massive QCD amplitudes beyond one loop
    
    Speaker: Alexander Mitov (DESY Zeuthen)
    
    Slides
  - 15:15
    
    Coffee
  - 39
    
    A subtraction scheme for cross sections at NNLO
    
    Speaker: Vittorio del Duca (INFN, Torino)
    
    Slides
  - 40
    
    Towards event shapes by NNLO subtraction
    
    Speaker: Gabor Somogyi (Debrecen)
    
    Slides
  - 41
    
    Techniques and Results for Supergravity Calculations
    
    The recent progress for calculating gauge theory amplitudes may also be applied to gravity calculations. We find surprising similarities between the perturbative expansions of maximally supersymmetric Yang-Mills and gravity theories. We discuss possible implications of these results for the UV behaviour of supergravity in D=4.
    
    Speaker: David Dunbar (Swansea)
    
    Slides
  - 16:50
    
    Coffee
  - 42
    
    Prospects for the Future
    
    Speaker: Zvi Bern (UCLA)
    
    Slides