Very Forward proton-proton interactions with the LHCf detector

The LHCf experiment has been designed to precisely measure very forward neutral particle spectra produced in proton-proton collisions at LHC up to an energy of 14 TeV in the center of mass system. These measurements are of fundamental importance to calibrate the Monte Carlo models widely used in the high energy cosmic ray (HECR) field, up to an equivalent laboratory energy of the order of 1017 eV. In 2009-2010 the experiment has completed the p-p data taking at sqrt{s} = 0.9 TeV and sqrt{s}=7 TeV and the detectors have later on been removed from the tunnel region, when the LHC luminosity increased above 1030 cm-2s-1. In this paper the most up-to-date results on the inclusive photon spectra and the pi0 spectra measured by LHCf are reported. Comparison of these spectra with the model expectations and the impact on high energy cosmic ray (HECR) Physics are discussed. In addition, perspectives for future analyses as well as the program for the next data taking period, in particular the foreseen data taking in p-Pb collisions, will be discussed.Comment: Physics in Collision, Slovakia, 201

RESULTS FROM LHCF EXPERIMENT

The LHCf experiment has taken data in 2009 and 2010 p–p collisions at LHC at √s = 0.9TeV and √s = 7TeV. In this paper the most up-to-date results on the inclusive photon spectra and the π0 spectra measured by LHCf are reported. Comparison of these spectra with the model expectations and the impact on high energy cosmic ray (HECR) Physics are iscussed. In addition, perspectives for future analyses as well as the program for the next data taking period, in particular the foreseen data taking in p–Pb collisions, will be discussed

The CMS Inner Tracker Silicon Microstrip Modules: production and test

The Silicon Microstrip Tracker is a key element for the discovery potential of the CMS detectors at LHC. The layout of the Tracker and the main components are described. The status of the construction of the Inner part of the CMS Tracker is reviewed. The construction of such a large scale detector requires an industrial and distributed approach. The procedures followed at each step of the production chain are described and finally the test performed on this subsystem are shown

Leptons + Jets + Missing Energy Analysis at LM1

The Leptons + Jets + Missing Energy (l = e,mu) final state for SUSY events is investigated at mSUGRA benchmark point LM1. The end point in the dilepton pair invariant mass distribution is reconstructed and a scan of the (m_0, m_1/2) plane is performed in order to determine the observability reach

RESULTS FROM LHCF EXPERIMENT

The LHCf experiment has taken data in 2009 and 2010 p–p collisions at LHC at √s = 0.9TeV and √s = 7TeV. In this paper the most up-to-date results on the inclusive photon spectra and the π0 spectra measured by LHCf are reported. Comparison of these spectra with the model expectations and the impact on high energy cosmic ray (HECR) Physics are iscussed. In addition, perspectives for future analyses as well as the program for the next data taking period, in particular the foreseen data taking in p–Pb collisions, will be discussed

The LHCf experiment: modelling cosmic rays at LHC

The LHCf experiment will be installed in 2007 on the LHC collider in the forward direction at 140 m. from the ATLAS interaction point. The purpose of LHCf is to precisely measure the pion production cross section near zero degrees through the measurement of the photons produced in neutral pion decay. This measurement is crucial for the simulation of the showers induced in the atmosphere by very high energy cosmic rays; the 14 TeV energy available in the center of mass frame corresponds in fact to an equivalent energy of 10(17) eV in the laboratory system. The paper focus on the proposed experiment and on the physics results that we expect from i

Large area SiC-UV phothodiode for spectroscopy portable system

In this work, we present the extensive characterization of large area Silicon Carbide based UV sensors candidate for outdoors spectroscopic applications of gas or liquid. The proposed SiC Schottky devices exhibit dark current density of 0.12 nA/cm2 @ 15 V, a 0.12 A/W responsivity @ 300 nm, optimal visible blindness and switching time of ~ 190 ns. Effects of temperature on the sensor performance, of crucial interest for outdoors applications, are also examined in the range from -20 °C to 90 °C.Published2931 - 29367TM. Sviluppo e Trasferimento TecnologicoJCR Journa

Forward photon energy spectrum at LHC 7 TeV p-p collisions measured by LHCf

Abstract The LHCf experiment is one of the LHC forward experiments. The aim is to measure the energy and the transverse momentum spectra of photons, neutrons and π 0 's at the very forward region (the pseudo-rapidity range of η > 8.4 ), which should be critical data to calibrate hadron interaction models used in the air shower simulations. LHCf successfully operated at s = 900 GeV and s = 7 TeV proton–proton collisions in 2009 and 2010. We present the first physics result, single photon energy spectra at s = 7 TeV proton–proton collisions and the pseudo-rapidity ranges of η > 10.94 and 8.81 η 8.9 . The obtained spectra were compared with the predictions by several hadron interaction models and the models do not reproduce the experimental results perfectly