Registrants as of 05.09.06

Last Name
First Name
Institute
Anastasiou
Babis 
Zurich ETH
Beerli
Stefan 
Zurich ETH
Bern
Zvi 
UCLA
Binoth
Thomas 
Edinburgh
Brandhuber
Andreas 
London QMW
Britto
Ruth 
Amsterdam
Bucherer
Stefan 
Zurich ETH
Catani
Stefano 
Firenze
Daleo
Alejandro 
Zurich U.
de Florian
Daniel 
La Plata
Del Duca
Vittorio 
Torino
Denner
Ansgar 
PSI
Dissertori
Gunether 
Zurich ETH
Dittmaier
Stefan 
Munich MPI
Dixon
Lance 
SLAC
Dunbar
David 
Swansea
Feng
Bo 
London IC
Figy
Terrance 
Durham
Forde
Darren 
CEA/Saclay
Freitas
Ayres 
Zurich U.
Gehrmann
Thomas 
Zurich U.
Gehrmann-De Ridder
Aude 
Zurich ETH
Giele
Walter 
Fermilab
Gleisberg                         
Tanju 
CERN
Glover
Nigel 
Durham
Grazzini
Massimiliano 
Firenze
Heinrich
Gudrun 
Zurich U.
Huber
Tobias 
Zurich U.
Huston
Joey 
Michigan
Kilgore
William 
BNL
Kosower
David 
Saclay
Kunszt
Zoltan 
Zurich ETH 
Kurz
Christian 
Zurich U.
Luisoni                  
Gionata 
Zurich U.   
Maitre
Daniel 
Zurich U.
Marchesini
Guiseppe
Milano
Mastrolia
Pierpaolo 
Zurich U.
Mitov                  
Alexander 
DESY        
Moch
Sven 
DESY
Motz
Tobias 
Zurich U.
Nagy
Zoltan 
Zurich U.
Nason
Paolo 
Milano
Oleari
Carlo 
Milano
Papadopoulos
Costas 
Athens
Passarino
Giampiero 
Torino
Perkins
Warren 
Swansea
Pittau
Roberto 
Torino
Plehn
Tilman 
Edinburgh
Pomarol
Alex
Barcelona
Remiddi
Ettore 
Bologna
Sharafiddinov
Rasulkhozha
AUS
Somogyi
Gabor 
Debrecen
Soper
Dave 
Oregon
Spira
Michael 
PSI
Stirling
James 
Durham
Studerus                 
Cedric 
Zurich U.    
Toedtli
Beat 
Zurich U.
Travaglini
Gabriele 
London QMW
Uwer
Peter 
CERN
Vogt
Andreas
Liverpool
Webber
Bryan
Cambridge
Weinzierl
Stefan 
Mainz
Winter                      
Jan
CERN         
Zanderighi
Giulia 
CERN
Zeppenfeld
Dieter 
Karlsruhe
Zhu
Chuan-jie 
Beijing

With the forthcoming start of the LHC, particle physics has entered a new regime, which should lead us to give an answer to questions like the origin of EW symmetry breaking, and the existence of supersymmetry.

Being the LHC a hadron collider machine, all the interesting high-pt new reactions are essentially initiated by QCD hard scattering. To claim for a new physics signal, a good control over known Standard Model (SM) processes is thus necessary.

The present status of QCD and, more generally, SM predictions for hard scattering reactions is essentially limited to radiative corrections at the next-to-leading order (NLO) in perturbation theory. Next-to-next-to leading order (NNLO) results are known only for a limited number of processes and observables and the predictions for many important reactions (with more than five legs) are still limited to LO.

Nonetheless, over the last two years great progress has been acheived in the field. We are getting new significant analytic control over the matrix elements as a result of the twistor techniques initiated by Witten in December 2003. A number of other promising automated analytic and numerical methods have also been suggested. Fully automated NLO calculations are expected to become feasible for processes with up to six legs, and new techniques have also emerged in NNLO calculations which follow those developed at NLO.

This workshop will mainly focus on the development of new, fully automated, methods for NLO computations of multi-leg processes in the Standard Model and its viable extensions. The progress is at an impressive speed, on both the analytical and numerical sides. The field is strongly driven. We see a lot of work and lot of enthusiasm. We hope that our meeting in Zurich will help to keep the spirit high.

If it is desired we may continue with the HP² conference in one or two years of cycles.
Suggestion:
2007(8) (Buenos-Aires)
2008(10) (Florence).

 

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