One of the goals of the first LHC physics will be to measure the Z/W + jets production rates and the characterization of this kind of events. In the early phase of the detector operation these processes will be very useful for calibration purposes: in particular they will be very useful for the determination of the calorimeter system energy scale and for the calibration of the detectors in events in which undetectable particles need to be identified through missing transverse energy (missing Et) signatures. Besides, these processes represent an extremely important background for many searches, such as Supersymmetry searches in the jets+lepton+missing Et channel, and as such must be known very accurately. In the last years the theoretical high energy physics community produced many programs, usually known as Monte Carlo generators or event generators, to simulate a variety of physics processes, producing simulated events according to the theoretically predicted distributions. The necessary starting point for a study of Z/W + jets events is a comparison between the different Monte Carlo programs able to produce them. I am currently working on such a comparison using the RIVET analysis tool. RIVET is a C++ library designed to produce distributions of many interesting observables, using different Monte Carlo generators; using RIVET it is possible to easily compare the outcome of different Monte Carlo tools as well as to compare the simulated distributions with data from experiments. I am currently working on the comparison of the SHERPA and ALPGEN event generators. For this purpose I setup an analysis in RIVET producing several plots of the most relevant observables. As an example the figure represents the pt of the Z boson for different numbers of jets in the final state. I am also actively involved in the development of the package; I am implementing new observables and I am working on the interface of the package with the Monte Carlo generators. This work is being very fruitful for my PhD research program, and it allows me to gain experience with the variety of Monte Carlo tools available for the production of LHC events, understanding the differences as well as the applicability limits of the different codes. See https://arxiv.org/abs/0903.3918
Pergiulio Lenzi
January, 2008 to April, 2008