Zero degree neutron energy spectra measured by LHCf at s = 13 TeV proton-proton collision
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1 Zero degree neutron energy spectra measured by LHCf at s = TeV proton-proton collision Nagoya university, ISEE ueno.mana@isee.nagoya-u.ac.jp The Large Hadron Collider forward (LHCf) experiment is designed to measure the particle production in very forward region at LHC. Forward particle production in the hadronic interaction is one of the crucial points to understand the development of cosmic-ray air showers. We report the preliminary results of the neutron energy spectra measured by LHCf in s = TeV protonproton collisions in the pseudo-rapidity ranging from 8.8 to 8.99, from 8.99 to 9., and above.76. Analysis procedure such as particle identification, position and energy determinations are also discussed in this presentation. PoS(ICRC7) 5th International Cosmic Ray Conference ICRC7 July, 7 Bexco, Busan, Korea Speaker. c Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4. International License (CC BY-NC-ND 4.).
2 LHCf neutron spectrum at s = TeV p-p collision. Introduction Ultra High Energy Cosmic Rays (UHECRs) are studied by ground-based experiments, such as the Pierre Auger Observatory [] and the Telescope Array []. These ground-based experiments must rely on the hadronic interaction models to reconstruct the incident cosmic-ray properties from the observed Extensive Air Shower (EAS) formed in the atmosphere. Because of the lack of calibration data relative to secondary particles produced in the forward region in high energy collisions, these models have different predictions. The Large Hadron Collider forward (LHCf) experiment is designed to verify the hadronic interaction models used in the cosmic-ray physics []. LHCf measures neutral particles, mainly photons and neutrons, produced in very forward region from p-p collisions at LHC. The neutron spectra in s = 7 TeV p-p collision have already been published by the collaboration [4][5]. In this paper we extend the analysis to data obtained in s = TeV p-p collisions.. The LHCf experiment and detectors The LHCf experiment has two independent detectors named Arm and Arm [6]. These detectors are placed on the both sides of the LHC Interaction Point (IP), in the structure called Target Absorber Neutral (TAN) located 4 m far from IP. Each detector consists of two calorimetric towers made up of 6 layers of sampling scintillation panels interleaved with tungsten plates and position sensitive detectors. The transverse dimensions of the calorimeter towers are mm mm and 4 mm 4 mm for Arm, and 5 mm 5 mm and mm mm for Arm. Position sensitive detectors are made of four pairs of X-Y position layers. These imaging layers are made up by mm width scintillator bar bundles in Arm and by.6 mm read out pitch silicon micro-strip detectors in the case of Arm. These detectors were upgraded for s = TeV operation. The performance of the detectors was investigated by using the accelerator beams and Monte Carlo (MC) simulations. The energy resolution and the position resolution for neutron are about 4 % and better than mm, respectively [7]. PoS(ICRC7). Data analysis In this section we present the analysis procedure to obtain the neutron energy spectra in s = TeV p-p collisions.. Experimental data set LHCf had an operation with p-p collisions in s = TeV from to June 5. The data set analyzed in this work was taken from : of June to : of June, corresponding to the LHC Fill 855, one of the special fills with low luminosity and high β optimized for LHCf data taking. In this fill 9 bunches collided at IP with beam crossing angle of 45 µrad. β was around 9 m and µ, the average number of collisions per bunch crossing, was The instantaneous luminosity L was measured by the ATLAS experiment as µb s [8]. Considering the LHCf data acquisition live time, the recorded integral luminosity was.9 nb. The number of inelastic collisions is estimated to be.5 7 with 5% systematic uncertainty.
3 LHCf neutron spectrum at s = TeV p-p collision. Monte Carlo simulation Monte Carlo (MC) simulations relative to the same experimental configuration present at the LHC are necessary for four different purposes: estimation of correction factors, validation of the whole analysis procedure, energy spectra unfolding and comparison between the model predictions and the final experimental result. We separate MC in three different categories: (a) Full simulation including the flight and decay of the particles in the beam pipe, interaction with the beam pipe and the magnetic field, and interaction in the detector (b) Simulations requiring only generation of collisions (c) Simulations requiring only interaction with the detector All these three sets of simulations have been generated making use of the COSMOS (v7.645) and EPICS (v9.65) libraries [9]. Five different hadronic interaction models have been used to generate collisions: QGSJET II-4 [], EPOS-LHC [], DPMJET-.4 [], PYTHIA 8. [] and SIBYLL. [4].. Event reconstruction The event reconstruction algorithm used in this analysis is summarized in this section. Firstly, we applied the selection which required the energy deposit of more than 6 MeV for any successive three layers to reject low energy background events. For each event passed the selection we reconstruct the quantities: the impact point on the detector, energy, and particle identification. The impact point was determined by fitting the lateral distribution measured by the position sensitive layer on which the energy deposit was maximum in the four layers. The incident particle energy was determined by the summation of energy deposits from the rd to the 6th sampling layers in the calorimeter tower. After correction for lateral leakage of shower particles, the summation of energy deposit was converted to the incident particle energy using calibration driven by a simulation study. Particle identification was performed by using the shower-transition shape measured by the sampling layers. Electromagnetic showers develop in the shallow part of the calorimeters while hadronic showers develop deeply. We defined a parameter L D as PoS(ICRC7) L D = L 9%.5 L % (.) where L % and L 9% represent the calorimeter depth containing % and 9% of the total deposited energy in the detector, respectively. Figure shows the L D distribution for the experimental data and MC simulation. In this analysis, we selected the events meeting the criterion L D > L th D with L th D about considering a weak energy dependence. 4. Results Preliminary results are discussed below. More detailed description of the Arm analyses is found in [5].
4 LHCf neutron spectrum at s = TeV p-p collision Events Pseudorapidity η>.74 : 55 GeV < E < 55 GeV Data 5 QGSJET II-4 (photon).8 QGSJET II-4 (hadron) QGSJET II-4 (fit).6.4. χ /ndf = [X Figure : The L D distribution measured by the LHCf Arm detector. QGSJETII-4 hadrons (blue) and photons (red) distributions were fitted to experimental data (black) in order to estimate PID correction factor. The result of the fit is shown in green. 4. Comparison between Arm and Arm detectors For cross-check of the analysis, we compared the obtained results between the Arm and Arm detectors. Figure shows the folded neutron energy spectra for the rapidity region η >.76 measured by the Arm and the Arm detectors. The spectra have long tail over the beam energy of 6.5 TeV because of 4% energy resolution. Experimental errors including the statistical and the systematic uncertainties are shown only in the Arm spectra in Fig.. Two spectra are consistent within errors. ] - Events/Ninel [GeV L D Arm Arm ] Preliminary PoS(ICRC7) Figure : The folded neutron energy spectra measured for the rapidity region η >.76. The red and the blue points represent the results by the Arm and the Arm detectors, respectively. Only the Arm result shows the experimental errors including the statistical and the systematic uncertainties. 4
5 LHCf neutron spectrum at s = TeV p-p collision 4. Comparison with MC simulations Figure shows the unfolded neutron energy spectra for the pseudo-rapidity regions, η >.76, 8.99 < η < 9., and 8.8 < η < 8.99, measured by the LHCf Arm detector. The obtained spectra were compared with the model predictions of QGSJET II-4, EPOS-LHC, DPMJET-.6, PYTHIA 8. and SIBYLL.. The vertical axis is the differential cross section of neutron production as shown in Eq.4., dσ n de = π N (4.) L ϕ E where L is the integrated luminosity corresponding to the data, and N = N( η, E) is the number of neutrons observed for each pseudo-rapidity interval η in each energy bin of width E, and ϕ is the azimuthal interval of analysis region on the Arm detector plane. dσ n /de [mb/gev] Ratio Preliminary η > dσ n /de [mb/gev] Ratio < η < dσ n /de [mb/gev] Ratio < η < 8.99 LHCf p-p s = TeV QGSJET II-4 EPOS-LHC DPMJET.6 PYTHIA 8. SIBYLL Figure : The unfolded neutron energy spectra for p-p collisions in s = TeV measured by the LHCf Arm detector. In the pseudo-rapidity η >.76, we found that only QGSJET II-4 and, in part, EPOS- LHC qualitatatively reproduce the increase of the number of neutron production rate in the high energy region. All the other model predictions do not exhibit high energy peak as observed in the experimental data. The results in the pseudo-rapidity regions, 8.99 < η < 9., and 8.8 < η < 8.99, are characterized by a good overall agreement of EPOS-LHC and QGSJET II-4 with experiment. Especially, EPOS-LHC has a good agreement in the region around.5 TeV. PoS(ICRC7) 5. Summary The LHCf experiment measured the particle production in very forward region in s = TeV p-p collisions. Using the Arm detector we obtained the preliminary neutron energy spectra in the pseudo-rapidity ranging from 8.8 to 8.99, from 8.99 to 9., and above.76. These spectra were compared with the model predictions and we found the big difference in the pseudo-rapidity region, η >.76. 5
6 LHCf neutron spectrum at s = TeV p-p collision In this presentation, we showed the unfolded spectra only for Arm. The same analysis for Arm data is on going. The final results with combining the two detectors result will be shown soon. References [] Pierre Auger Collaboration, The Pierre Auger Cosmic Ray Observatory, Nuclear Instruments and Methods in Physics Research, A798, (5) 7. [] H.Kawai et al., Telescope Array Experiment, Nuclear Physics B (Proc. Suppl., 75-76, (8) 6. [] O. Adriani et al., Technical Design Report of the LHCf experiment, CERN LHCC 6 4, LHCF TDR (6). [4] LHCf Collaboration, Measurement of very forward neutron energy spectra for 7 TeV proton-proton collisions at the Large Hadron Collider, Phys. Lett. B 75 (5) [5] K. Kawade, Measurement of neutron production in the very forward rapidity at LHC s = 7 TeV p-p collision, PhD thesis, Nagoya University (4).; CERN-THESIS-4-5. [6] LHCf Collaboration, The LHCf detector at the CERN Large Hadron Collider, JINST, S86 (8). [7] K.Kawade et al., The performance of the LHCf detector for hadronic showers, JINST, 9, P6 (4). [8] ATLAS Collaboration, Luminosity determination in pp collisions at s=8 TeV using the ATLAS detector at the LHC, Eur. Phys. J. C76 (6) 65. [9] K. Kasahara., EPICS web page., [] S. Ostapchenko, Monte Carlo treatment of hadronic interactions in enhanced Pomeron scheme: QGSJET-II model, Phys.Rev., D8, () 48. [] T.Pierog, Iu Karpenko, JM Katzy, E. Yatsenko, and K. Werner., EPOS LHC: Test of collective hadronization with data measured at the CERN Large Hadron Collider, Phys. Rev. C9, (5) 496. [] F. W. Bopp et al, Antiparticle to particle production ratios in hadron-hadron and d-au collisions in the DPMJET-III Monte Carlo model, Phys. Rev. C77 (8) 494. [] T. Sjöstrand et al, An introduction to PYTHIA 8., Computer Physis Communications, 9 (5) [4] E. Ahn et al, Cosmic rat interaction event generator SIBYLL., Phys. Rev. D8 (9) 94. [5] E. Berti, Measurement of the energy spectra relative to neutrons produced at very small angle in s= TeV proton-proton collisions using the LHCf Arm detector, PhD thesis, University of PoS(ICRC7) Florence (7).; CERN-THESIS
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