Your search keyword '"Bonechi L."' showing total 755 results

1. Measurement of the transverse single-spin asymmetry for forward neutron production in a wide $p_T$ range in polarized $p+p$ collisions at $\sqrt{s} = 510$ GeV

Author

Kim, M. H., Adriani, O., Berti, E., Bonechi, L., D'Alessandro, R., Goto, Y., Hong, B., Itow, Y., Kasahara, K., Kim, Y., Lee, J. H., Lee, S. H., Ljubicic, T., Menjo, H., Mitsuka, G., Nakagawa, I., Ogawa, A., Oh, S., Sako, T., Sakurai, N., Sato, K., Seidl, R., Tanida, K., Torii, S., and Tricomi, A.

Subjects

Nuclear Experiment, High Energy Physics - Experiment

Abstract

Transverse single-spin asymmetries $A_{\textrm{N}}$ of forward neutrons at pseudorapidities larger than 6 had only been studied in the transverse momentum range of $p_{\textrm{T}} < 0.4$ GeV/$c$. The RHICf Collaboration has extended the previous measurements up to 1.0 GeV/$c$ in polarized $p+p$ collisions at $\sqrt{s}~=~510$GeV, using an electromagnetic calorimeter installed in the zero-degree area of the STAR detector at the Relativistic Heavy Ion Collider. The resulting $A_{\textrm{N}}$s increase in magnitude with $p_{\textrm{T}}$ in the high longitudinal momentum fraction $x_{\textrm{F}}$ range, but reach a plateau at lower $p_{\textrm{T}}$ for lower $x_{\textrm{F}}$. For low transverse momenta the $A_{\textrm{N}}$s show little $x_{\textrm{F}}$ dependence and level off from intermediate values. For higher transverse momenta the $A_{\textrm{N}}$s show also an indication to reach a plateau at increased magnitudes. The results are consistent with previous measurements at lower collision energies, suggesting no $\sqrt{s}$ dependence of the neutron asymmetries. A theoretical model based on the interference of $\pi$ and $a_1$ exchange between two protons could partially reproduce the current results, however an additional mechanism is necessary to describe the neutron $A_{\textrm{N}}$s over the whole kinematic region measured., Comment: Submitted to PRD

Published

2023

2. Recent results from the LHCf and RHICf experiments

Author

Itow Y., Masuda K., Menjo H., Muraki Y., Ohashi K., Sato K., Ueno M., Zhou Q.D., Sako T., Kasahara K., Suzuki T., Torii S., Tamura T., Sakurai N., Haguenauer M., Turner W.C., Adriani O., Berti E., Bonechi L., Bongi M., D'Alessandro R., Papini P., Ricciarini S., Tiberio A., Tricomi A., Goto Y., Nakagawa I., Seidl R., Park J.S., Kim M.H., Tanida K., and Hong B.

Subjects

Physics, QC1-999

Abstract

The Large Hadron Collider forward and the Relativistic Heavy Ion Collider forward experiments measured forward particles produced in high-energy hadron collisions at the LHC and RHIC. Using compact calorimeters neutral particles produced in pseudorapidities η >8.4 and η >6.0 are observed by the respective experiments. Because the collision energies ranging from 0.51 TeV to 13 TeV correspond to the cosmic-ray equivalent energies of 1014 to 1017 eV, the measurements are important to understand the hadronic interaction relevant to extensive air shower measurements. This paper reviews recent results of LHCf and initial performance of RHICf that took data in the 2017 RHIC operation.

Published

2019

3. Transverse single spin asymmetry for very forward π0 production in polarized proton-proton collisions at √s = 510 GeV

Author

Kim M. H., Hong B., Goto Y., Nakagawa I., Seidl R., Park J. S., Tanida K., Itow Y., Menjo H., Sato K., Ueno M., Zhou Q. D., Sako T., Kasahara K., Suzuki T., Torii S., Sakurai N., Adriani O., Bonechi L., Berti E., D'Alessandro R., and Tricomi A.

Subjects

Physics, QC1-999

Abstract

Transverse single spin asymmetry, AN, of very forward π0 production from polarized p + p collisions provides new information toward an understanding of its production mechanism. AN of forward π0 in the pseudorapidity region of 3 < η < 4 has been described by the partonic structure of the proton in the perturbative QCD framework. However, recent data indicates a potential contribution from not only partonic but also diffractive interactions. In order to provide a new insight on the origin of the AN, we measured the very forward π0 production in the pseudorapidity region of 6 < η from √s = 510 GeV polarized p + p collisions at RHIC in 2017. We report our measurement of the very forward π0 over the transverse momentum range of 0 < pT < 1 GeV/c and the preliminary result.

Published

2019

4. Adaptive Voronoi Binning in Muon Radiography for Detecting Subsurface Cavities

Author

Paccagnella, A., Ciulli, V., D’Alessandro, R., Bonechi, L., Borselli, D., Frosin, C., Gonzi, S., Beni, T., Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Foresti, Gian Luca, editor, Fusiello, Andrea, editor, and Hancock, Edwin, editor

Published

2024

5. The MURAVES project and other parallel activities on muon absorption radiography

Author

Bonechi L., Ambrosino F., Cimmino L., D'Alessandro R., Macedonio G., Melon B., Mori N., Noli P., Saracino G., Strolin P., Giudicepietro F., Martini M., Orazi M., and Peluso R.

Subjects

Physics, QC1-999

Abstract

The MURAVES (MUon RAdiography of VESuvius) project is a joint activity participated by INGV, INFN and the Universities of Naples “Federico II” and Florence. The collaboration, following the experience gained within the previous INFN R&D project Mu-Ray, is currently completing the production of a robust four square meter low power consumption detector to be installed on the flank of Mount Vesuvius, an active volcano located on the western coast of Italy. The detector is supposed to collect data for at least one year, thus allowing performing a scan of the structure of the Vesuvius volcanic cone. In this work the status of the project and some parallel activities on muon radiography are presented.

Published

2018

6. Development of the photo-diode subsystem for the HERD calorimeter double-readout

Author

Adriani, O., Antonelli, M., Basti, A., Berti, E., Betti, P., Bigongiari, G., Bonechi, L., Bongi, M., Bonvicini, V., Bottai, S., Brogi, P., Castellini, G., Checchia, C., Casaus, J., Cui, X., Dong, Y., D'Alessandro, R., Detti, S., Giovacchini, F., Finetti, N., Maestro, P., Marrocchesi, P. S., Liu, X., Marin, J., Martinez, G., Mori, N., Pacini, L., Papini, P., Pizzolotto, C., Ricciarini, S., Spillantini, P., Starodubtsev, O., Stiaccini, L., Tang, Z., Tiberio, A., Vannuccini, E., Velasco, M., Wang, R., Wang, Z., Xu, M., Zampa, G., Zampa, N., and Zhang, L.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The measurement of cosmic-ray individual spectra provides unique information regarding the origin and propagation of astro-particles. Due to the limited acceptance of current space experiments, protons and nuclei around the "knee" region ($\sim1\ PeV$) can only be observed by ground based experiments. Thanks to an innovative design, the High Energy cosmic-Radiation Detection (HERD) facility will allow direct observation up to this energy region: the instrument is mainly based on a 3D segmented, isotropic and homogeneous calorimeter which properly measures the energy of particles coming from each direction and it will be made of about 7500 LYSO cubic crystals. The read-out of the scintillation light is done with two independent systems: the first one based on wave-length shifting fibers coupled to Intensified scientific CMOS cameras, the second one is made of two photo-diodes with different active areas connected to a custom front-end electronics. This photo-diode system is designed to achieve a huge dynamic range, larger than $10^7$, while having a small power consumption, few mW per channel. Thanks to a good signal-to-noise ratio, the capability of a proper calibration, by using signals of both non-interacting and showering particles, is also guaranteed. In this paper, the current design and the performance obtained by several tests of the photo-diode read-out system are discussed.

Published

2022

7. Light yield non-proportionality of inorganic crystals and its effect on cosmic-ray measurements

Author

Adriani, O., Berti, E., Betti, P., Bigongiari, G., Bonechi, L., Bongi, M., Bottai, S., Brogi, P., Castellini, G., Checchia, C., Alessandro, R. D, Detti, S., Finetti, N., Maestro, P., Marrocchesi, P. S., Mori, N., Olmi, M., Pacini, L., Papini, P., Poggiali, C., Ricciarini, S., Spillantini, P., Starodubtsev, O., Stolzi, F., Tiberio, A., and Vannuccini, E.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics, High Energy Physics - Experiment

Abstract

The multi-TeV energy region of the cosmic-ray spectra has been recently explored by direct detection experiments that used calorimetric techniques to measure the energy of the cosmic particles. Interesting spectral features have been observed in both all-electron and nuclei spectra. However, the interpretation of the results is compromised by the disagreements between the data obtained from the various experiments, that are not reconcilable with the quoted experimental uncertainties. Understanding the reason for the discrepancy among the measurements is of fundamental importance in view of the forthcoming high-energy cosmic-ray experiments planned for space, as well as for the correct interpretation of the available results. The purpose of this work is to investigate the possibility that a systematic effect may derive from the non-proportionality of the light response of inorganic crystals, typically used in high-energy calorimetry due to their excellent energy-resolution performance. The main reason for the non-proportionality of the crystals is that scintillation light yield depends on ionisation density. Experimental data obtained with ion beams were used to characterize the light response of various scintillator materials. The obtained luminous efficiencies were used as input of a Monte Carlo simulation to perform a comparative study of the effect of the light-yield non-proportionality on the detection of high-energy electromagnetic and hadronic showers. The result of this study indicates that, if the calorimeter response is calibrated by using the energy deposit of minimum ionizing particles, the measured shower energy might be affected by a significant systematic shift, at the level of few percent, whose sign and magnitude depend specifically on the type of scintillator material used., Comment: to be published in JINST

Published

2022

8. Results of the LHCf experiment and the forward measurements at the LHC

Author

Sako T., Adriani O., Berti E., Bonechi L., Bongi M., Castellini G., D'Alessandro R., Haguenauer M., Itow Y., Iwata T., Kasahara K., Masuda K., Matsubayashi E., Menjo H., Muraki Y., Papini P., Ricciarini S., Sakurai N., Sato K., Shinoda M., Suzuki T., Tamura T., Tiberio A., Torii T., Tricomi A., Turner W.C., Ueno M., and Zhou Q.D.

Subjects

Physics, QC1-999

Abstract

The Large Hadron Collider is intensively used to test hadronic interaction models used in cosmic-ray physics because its maximum (designed) collision energy √s = 14 TeV corresponds to the interaction of a 1017 eV cosmic-ray proton hitting the atmosphere. In this paper various types of forward experiments at the LHC, where the particles relevant to the air shower development are observed, are reviewed. Recent results of a dedicated experiment for precise forward measurement, the LHC forward, are discussed in detail. A future possibility at the LHC, light ion collisions, is also discussed.

Published

2017

9. RHIC forward experiment to study √s dependence of forward particle production

Author

Sako T., Adriani O., Bonechi L., D'Alessandro R., Goto Y., Itow Y., Kasahara K., Kim M., Makino Y., Matsubayashi E., Menjo H., Nakagawa I., Park J., Sakurai N., Sato K., Seidl R., Shinoda M., Suzuki T., Tanida K., Torii S., Tricomi A., Ueno M., and Zhou Q.D.

Subjects

Physics, QC1-999

Abstract

The Relativistic Heavy Ion Collider forward experiment is ready to take data in the RHIC Run2017 √s = 510 GeV p-p collisions using the LHCf Arm1 detector. New accelerator data are valuable to verify the Feynman scaling of FX1 production and to study the evolution of the break of scaling in neutron production. Using the transversely polarized proton beam, asymmetric production of forward neutrons is precisely measured. That is useful to understand the fundamental meson exchange in the proton-proton collisions.

Published

2017

10. CaloCube: a novel calorimeter for high-energy cosmic rays in space

Author

Rappoldi A., Cattaneo P.W., Adriani O., Agnesi A., Albergo S., Auditore L., Basti A., Berti E., Bigongiari G., Bonechi L., Bonechi S., Bongi M., Bonvicini V., Bottai S., Brogi P., Cappello G., Carotenuto G., Castellini G., D’Alessandro R., Detti S., Fasoli M., Finetti N., Italiano A., Lenzi P., Maestro P., Marrocchesi P.S., Miritello M., Mori N., Olmi M., Orzan G., Pacini L., Papini P., Pellegriti M.G., Pirzio F., Ricciarini S., Spillantini P., Starodubtsev O., Stolzi F., Suh J.E., Sulaj A., Tiberio A., Tricomi A., Trifirò A., Trimarchi M., Vannuccini E., Vedda A., Zampa G., and Zampa N.

Subjects

Physics, QC1-999

Abstract

CaloCube is an R&D project borne to develop a novel calorimeter design, optimized for high-energy cosmic ray measurements in space. A small prototype made of CsI(Tl) elements has been built and tested on particle beams. A final version, made of 5×5×18 crystals and with dual readout (two photodiodes for each crystal), to cover the full required dynamic range, is under construction and will be tested at CERN SPS in Summer 2016. The dual readout compensation technique were developed and the feasibility to extract Čerenkov signals from CsI crystals verified.

Published

2017

11. Measurement of forward photon production cross-section in pp collisions at $\sqrt{s}$ = 510 GeV with RHICf detector

Author

Adriani, O., Berti, E., Bonechi, L., D'Alessandro, R., Goto, Y., Hong, B., Itow, Y., Kasahara, K., Lee, J. H., Ljubicic, T., Kim, M. H., Menjo, H., Nakagawa, I., Ogawa, A., Ohashi, K., Pak, R., Sako, T., Sakurai, N., Sato, K., Seidl, R., Tanida, K., Torii, S., and Tricomi, A.

Subjects

High Energy Physics - Experiment

Abstract

This study reported the inclusive differential production cross-section of photons in six pseudorapidity regions: 6.1 < $\eta$ < 6.5, 6.5 < $\eta$ < 7.0, 7.0 < $\eta$ <7.5, 7.5 < $\eta$ <8.0, 8.0 < $\eta$ < 8.5, and $\eta$ > 8.5, measured through the RHICf experiment with pp collisions at $\sqrt{s}$ = 510 GeV conducted in June 2017. In addition, the cross-sections in the three regions of the $x_F$-$p_T$ phase space coverage that are same as those of the LHCf results at $\sqrt{s}$ = 7 and 13 TeV were obtained and compared. Considering the uncertainties, the results were observed to be consistent with both the Feynman scaling law and the model predictions of EPOS-LHC, QGSJET-II-04, Sibyll 2.3d, and DPMjet-III 2019.1, although certain models exhibited weak collision energy dependencies., Comment: 19 pages, 5 figures

Published

2022

12. The MURAVES experiment: study of the Vesuvius Great Cone with Muon Radiography

Author

D'Errico, M., Ambrosino, F., Anastasio, A., Basnet, S., Bonechi, L., Bongi, M., Bross, A., Ciaranfi, R., Cimmino, L., Ciulli, C., D'Alessandro, R., Giammanco, A., Giudicepietro, F., Gonzi, S., Karnam, R., Macedonio, G., Masone, V., Mori, N., Moussawi, M., Orazi, M., Passeggio, G., Peluso, R., Pla-Dalmau, A., Rendon, C., Samalan, A., Saracino, G., Scarpato, G., Strolin, P., Tytgat, M., Vertechi, E., and Viliani, L.

Subjects

Physics - Instrumentation and Detectors, Physics - Geophysics

Abstract

The MURAVES experiment aims at the muographic imaging of the internal structure of the summit of Mt. Vesuvius, exploiting muons produced by cosmic rays. Though presently quiescent, the volcano carries a dramatic hazard in its highly populated surroundings. The challenging measurement of the rock density distribution in its summit by muography, in conjunction with data from other geophysical techniques, can help the modeling of possible eruptive dynamics. The MURAVES apparatus consists of an array of three independent and identical muon trackers, with a total sensitive area of 3 square meters. In each tracker, a sequence of 4 XY tracking planes made of plastic scintillators is complemented by a 60 cm thick lead wall inserted between the two downstream planes to improve rejection of background from low energy muons. The apparatus is currently acquiring data. Preliminary results from the analysis of a first data sample are presented., Comment: Conference Muography2021, 10 pages, 8 figures

Published

2022

13. The simulations chain of the MURAVES experiment

Author

Moussawi, M., Basnet, S., Bonechi, L., Cimmino, L., DÁlessandro, R., DÉrrico, M., Giammanco, A., Karnam, R., Macedonio, G., Rendon, C., Samalan, A., Saracino, G., and Tytgat, M.

Subjects

Physics - Instrumentation and Detectors

Abstract

The MUon RAdiography of VESuvius (MURAVES) project aims at the study of the summital cone of Mt. Vesuvius, an active and hazardous volcano near Naples, Italy. A detailed Monte Carlo simulation framework is necessary in order to investigate the effects of the experimental constraints and to perform comparisons with the actual observations. Our Monte Carlo setup combines a variety of Monte Carlo programs that address different aspects of cosmic muon simulation, from muon generation in the Earth's upper atmosphere to the response of the detector, including the interactions with the material of the volcano. We will elaborate on the rationale for our technical choices, including trade-off between speed and accuracy, and on the lessons learned, which are of general interest for similar use cases in muon radiography., Comment: arXiv admin note: substantial text overlap with arXiv:2109.14324

Published

2022

14. LHCf experiment: forward physics at LHC for cosmic rays study

Author

Del Prete M., Adriani O., Berti E., Bonechi L., Bongi M., Castellini G., D’Alessandro R., Haguenauer M., Itow Y., Kasahara K., Kawade K., Makino Y., Masuda K., Matsubayashi E., Menjo H., Mitsuka G., Muraki Y., Okuno Y., Papini P., Perrot A.-L., Ricciarini S., Sako T., Sakurai N., Sugiura Y., Suzuki T., Tamura T., Tiberio A., Torii S., Tricomi A., Turner W.C., and Zhou Q.D.

Subjects

Physics, QC1-999

Abstract

The LHCf experiment, optimized for the study of forward physics at LHC, completes its main physics program in this year 2015, with the proton-proton collisions at the energy of 13 TeV. LHCf gives important results on the study of neutral particles at extreme pseudo-rapidity, both for proton-proton and for proton-ion interactions. These results are an important reference for tuning the models of the hadronic interaction currently used for the simulation of the atmospheric showers induced by very high energy cosmic rays. The results of this analysis and the future perspective are presented in this paper.

Published

2016

15. BLEMAB European project: muon imaging technique applied to blast furnaces

Author

BLEMAB Collaboration, Bonechi, L., Ambrosino, F., Andreetto, P., Bonomi, G., Borselli, D., Bottai, S., Buhles, T., Calliari, I., Checchia, P., Chiarotti, U., Cialdai, C., Ciaranfi, R., Cimmino, L., Ciulli, V., D'Alessandro, R., D'Errico, M., Ferretti, R., Finke, F., Franzen, A., Glaser, B., Gonzi, S., Liu, Y., Lorenzon, A., Masone, V., Nechyporuk, O., Pezzato, L., Rangavittal, B. V., Ressegotti, D., Saracino, G., Sauerwald, J., Starodubtsev, O., and Viliani, L.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Physics - Applied Physics

Abstract

The BLEMAB European project (BLast furnace stack density Estimation through online Muon ABsorption measurements), evolution of the previous MuBlast European project, is designed to investigate in detail the capability of muon radiography techniques applied to the imaging of a blast furnace's inner zone. In particular, the geometry and size of the so called cohesive zone, i.e. the spatial zone where the slowly downward moving material begins to soften and melt, that plays an important role in the performance of the blast furnace itself. Thanks to the high penetration power of the natural cosmic ray muon radiation, muon transmission radiography represents an appropriate non-invasive methodology for imaging large high-density structures such as blast furnaces, whose linear size can be up to a few tens of meters. A state-of-the-art muon tracking system, whose design profits from the long experience of our collaboration in this field, is currently under development and will be installed in 2022 at a blast furnace on the ArcelorMittal site in Bremen (Germany) for many months. Collected data will be exploited to monitor temporal variations of the average density distribution inside the furnace. Muon radiography results will also be compared with measurements obtained through an enhanced multipoint probe and standard blast furnace models., Comment: 12 pages, 15 figures, IWORID 2021 Workshop

Published

2021

16. The CaloCube calorimeter for high-energy cosmic-ray measurements in space: performance of a large-scale prototype

Author

Adriani, O., Agnesi, A., Albergo, S., Antonelli, M., Auditore, L., Basti, A., Berti, E., Bigongiari, G., Bonechi, L., Bongi, M., Bonvicini, V., Bottai, S., Brogi, P., Castellini, G., Cattaneo, P. W., Checchia, C., Alessandro, R. D, Detti, S., Fasoli, M., Finetti, N., Italiano, A., Maestro, P., Marrocchesi, P. S., Mori, N., Orzan, G., Olmi, M., Pacini, L., Papini, P., Pellegriti, M. G., Pirzio, F., Pizzolotto, C., Poggiali, C., Rappoldi, A., Ricciarini, S., Sciuto, A., Spillantini, P., Starodubtsev, O., Stolzi, F., Suh, J. E., Sulaj, A., Tiberio, A., Tricomi, A., Trifiro, A., Trimarchi, M., Vedda, A., Vannuccini, E., Zampa, G., and Zampa, N.

Subjects

Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics, High Energy Physics - Experiment

Abstract

The direct observation of high-energy cosmic rays, up to the PeV energy region, will increasingly rely on highly performing calorimeters, and the physics performance will be primarily determined by their geometrical acceptance and energy resolution. Thus, it is extremely important to optimize their geometrical design, granularity and absorption depth, with respect to the totalmass of the apparatus, which is amongst the most important constraints for a space mission. CaloCube is an homogeneous calorimeter whose basic geometry is cubic and isotropic, obtained by filling the cubic volume with small cubic scintillating crystals. In this way it is possible to detect particles arriving from every direction in space, thus maximizing the acceptance. This design summarizes a three-year R&D activity, aiming to both optimize and study the full-scale performance of the calorimeter, in the perspective of a cosmic-ray space mission, and investigate a viable technical design by means of the construction of several sizable prototypes. A large scale prototype, made of a mesh of 5x5x18 CsI(Tl) crystals, has been constructed and tested on high-energy particle beams at CERN SPS accelerator. In this paper we describe the CaloCube design and present the results relative to the response of the large scale prototype to electrons., Comment: 24 pages, 19 figures

Published

2021

17. End-to-end simulations of the MUon RAdiography of VESuvius experiment

Author

Samalan, A., Basnet, S., Bonechi, L., Cimmino, L., Alessandro, R. D., Errico, M. D., Giammanco, A., Karnam, R., Macedonio, G., Moussawi, M., Rendon, C., Saracino, G., and Tytgat, M.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The MUon RAdiography of VESuvius (MURAVES) project aims at the study of the summital cone of Mt. Vesuvius, an active volcano near Naples (Italy), by measuring its density profile through muon flux attenuation. Its data, combined with those from gravimetric and seismic measurement campaigns, will be used for better defining the volcanic plug at the bottom of the crater. We report on the development of an end-to-end simulation framework, in order to perform accurate investigations of the effects of the experimental constraints and to compare simulations, under various model hypotheses, with the actual observations. The detector simulation setup is developed using GEANT4 and a study of cosmic particle generators has been conducted to identify the most suitable one for our simulation framework. To mimic the real data, GEANT4 raw hits are converted to clusters through a simulated digitization: energy deposits are first summed per scintillator bar, and then converted to number of photoelectrons with a data-driven procedure. This is followed by the same clustering algorithm and same tracking code as in real data. We also report on the study of muon transport through rock using PUMAS and GEANT4. In this paper we elaborate on the rationale for our technical choices, including trade-off between speed and accuracy. The developments reported here are of general interest in muon radiography and can be applied in similar cases.

Published

2021

18. Recent results from the LHCf experiment

Author

Tiberio A., Adriani O., Berti E., Bonechi L., Bongi M., Castellini G., D’Alessandro R., Del Prete M., Haguenauer M., Itow Y., Kasahara K., Kawade K., Makino Y., Masuda K., Matsubayashi E., Menjo H., Mitsuka G., Muraki Y., Papini P., Perrot A.-L., Pfeiffer D., Ricciarini S., Sako T., Sakurai N., Shimizu Y., Sugiura Y., Suzuki T., Tamura T., Torii S., Tricomi A., Turner W. C., and Zhou Q.

Subjects

Physics, QC1-999

Abstract

The LHC-forward (LHCf) experiment, situated at the LHC accelerator, has measured neutral particles production in a very forward region (pseudo-rapidity > 8.4) in proton-proton and proton-lead collisions. The main purpose of the LHCf experiment is to test hadronic interaction models used in cosmic rays experiments to imulate cosmic rays induced air-showers in Earth’s atmosphere.The experiment is composed of two independent detectors located at 140m from the ATLAS interaction point (IP1) on opposite sides ; each detector is composed of two sampling calorimeters. Latest physics results from p-p and p-Pb collisions (at √s = 7 TeV and 5.02 TeV respectively) will be discussed in this paper ; in particular, the inclusive energy spectra of neutrons in p-p collisions and the transverse momentum spectra of neutral pions for different pseudo-rapidity ranges in p-Pb collisions will be shown.

Published

2015

19. Recent results from LHCf

Author

Menjo H., Adriani O., Berti E., Bonechi L., Bongi M., Castellini G., D'Alessandro R., Prete M. Del, Haguenauer M., Itow Y., Kasahara K., Kawade K., Makino Y., Masuda K., Matsubayashi E., Mitsuka G., Muraki Y., Papini P., Perrot A.-L., Pfeiffer D., Ricciarini S., Sako T., Shimizu Y., Sugiura Y., Suzuki T., Tamura T., Tiberio A., Torii S., Tricomi A., Turner W.C., and Zhou Q.

Subjects

Physics, QC1-999

Abstract

The LHCf experiment is one of the LHC forward experiments. The aim of LHCf is to provide critical calibration data of hadronic intraction models used in air shower simulations. The LHCf has completed the operations for p-p collisions with a collision energy of √s = 0.9 and 7 TeV p-p in 2010 and for p-Pb collisions with a collision energy per nucleon of √sNN = 5.02. The recent LHCf result of forward neutron energy spectra at 7 TeV p-p collision and forward π0 spectra at p-Pb collisions are presented in this paper.

Published

2015

20. Latest LHCf results and preparation to the LHC run for 13 TeV proton–proton interactions

Author

Bonechi L., Adriani O., Berti E., Bongi M., Castellini G., D’Alessandro R., Del Prete M., Haguenauer M., Itow Y., Kasahara K., Makino Y., Masuda K., Matsubara Y., Matsubayashi E., Menjo H., Mitsuka G., Muraki Y., Okuno Y., Papini P., Perrot A-L., Ricciarini S., Sako T., Sakurai N., Shimizu Y., Sugiura Y., Suzuki T., Tamura T., Tiberio A., Torii S., Tricomi A., Turner W.C., Yoshida K., and Zhou Q.D.

Subjects

Physics, QC1-999

Abstract

The LHCf experiment is a CERN experiment dedicated to forward physics which is optimized to measure the neutral particle flow at extreme pseudo-rapidity values, ranging from 8.4 up to infinity. LHCf results are extremely important for the calibration of the hadronic interaction models used for the study of the development of atmospheric showers in the Earth atmosphere. Starting from the recent run of proton-Lead nucleus interactions at LHC, the LHCf and ATLAS collaborations have performed a common data taking which allows a combined study of the central and forward regions of the interaction. The latest results of LHCf, the upgrade of the detectors for the next 6.5 TeV + 6.5 TeV proton–proton run and the status of the LHCf-ATLAS common activities are summarized in this paper.

Published

2015

21. Performance of RHICf detector during operation in 2017

Author

Adriani, O., Berti, E., Bonechi, L., Alessandro, R. D', Goto, Y., Hong, B., Itow, Y., Kasahara, K., Kim, M. H., Menjo, H., Nakagawa, I., Sako, T., Sakurai, N., Sato, K., Seidl, R., Tanida, K., Torii, S., and Tricomi, A.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

In the RHIC forward (RHICf) experiment, an operation with pp collisions was performed at $\sqrt{s}\,=\,$510 GeV from 24-27 June 2017. The performances, energy and position resolutions, trigger efficiency, stability, and background during the operation, have been studied using data and simulations, which revealed that the requirements for production cross-section and transverse single-spin asymmetry measurements of very forward photons, $\pi^0$s, and neutrons were satisfied. In this paper, we describe the details of these studies., Comment: 17 pages, 14 figures. arXiv admin note: substantial text overlap with arXiv:1205.4578

Published

2021

22. The CaloCube calorimeter for high-energy cosmic-ray measurements in space: Response of a large-scale prototype to protons

Author

Adriani, O., Agnesi, A., Albergo, S., Antonelli, M., Auditore, L., Basti, A., Betti, P., Berti, E., Bigongiari, G., Bonechi, L., Bongi, M., Bonvicini, V., Bottai, S., Brogi, P., Castellini, G., Cattaneo, P.W., Checchia, C., Duranti, M., D’Alessandro, R., Detti, S., Finetti, N., Formato, V., Italiano, A., Maestro, P., Marrocchesi, P.S., Mori, N., Orzan, G., Olmi, M., Pacini, L., Papini, P., Pellegriti, M.G., Pirzio, F., Pizzolotto, C., Poggiali, C., Rappoldi, A., Ricciarini, S., Sciuto, A., Silvestre, G., Spillantini, P., Starodubtsev, O., Stolzi, F., Suh, J.E., Sulaj, A., Tiberio, A., Tricomi, A., Trifiro, A., Trimarchi, M., Vannuccini, E., Zampa, G., and Zampa, N.

Published

2024

23. Forward physics with the LHCf experiment: a LHC contribution to cosmic-ray physics

Author

Bonechi L., Adriani O., Berti E., Bongi M., Castellini G., D’Alessandro R., Del Prete M., Haguenauer M., Itow Y., Kasahara K., Makino Y., Masuda K., Matsubayashi E., Menjo H., Mitsuka G., Muraki Y., Papini P., Perrot A-L., Ricciarini S., Sako T., Sakurai N., Shimizu Y., Suzuki T., Tamura T., Tiberio A., Torii S., Tricomi A., and Turner W.C.

Subjects

Physics, QC1-999

Abstract

LHCf is a small detector installed at LHC accelerator to measure neutral particle flow in the forward direction of proton -proton (p - p) and proton -nucleus (p - A) interactions. Thanks to the optimal performance that has characterized the last years’ running of the LHC collider, several measurements have been taken since 2009 in different running conditions. After data taking for p - p interactions at √s = 900 GeV, 2.76 TeV and 7 TeV and proton - Lead nucleus (p -Pb) at √sNN = 5.02 TeV (energy of a couple of projectile and target nucleons in their center of mass reference frame), LHCf is now going to complete its physics program with the 13 TeV p - p run foreseen in 2015. The complete set of results will become a reference data set of forward physics for the calibration and tuning of the hadronic interaction models currently used for the simulation of the atmospheric showers induced by very high energy cosmic rays. For this reason we think that LHCf is giving an important contribution for the study of cosmic rays at the highest energies. In this paper the experiment, the published results and the current status are reviewed.

Published

2014

24. Tracker-In-Calorimeter (TIC): a calorimetric approach to tracking gamma rays in space experiments

Author

Adriani, O., Ambrosi, G., Azzarello, P., Basti, A., Berti, E., Bertucci, B., Bigongiari, G., Bonechi, L., Bongi, M., Bottai, S., Brianzi, M., Brogi, P., Castellini, G., Catanzani, E., Checchia, C., D'Alessandro, R., Detti, S., Duranti, M., Finetti, N., Formato, V., Ionica, M., Maestro, P., Maletta, F., Marrocchesi, P. S., Mori, N., Pacini, L., Papini, P., Ricciarini, S., Silvestre, G., Spillantini, P., Starodubtsev, O., Stolzi, F., Suh, J. E., Sulaj, A., Tiberio, A., and Vannuccini, E.

Subjects

Physics - Instrumentation and Detectors, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

A multi-messenger, space-based cosmic ray detector for gamma rays and charged particles poses several design challenges due to the different instrumental requirements for the two kind of particles. Gamma-ray detection requires layers of high Z materials for photon conversion and a tracking device with a long lever arm to achieve the necessary angular resolution to separate point sources; on the contrary, charge measurements for atomic nuclei requires a thin detector in order to avoid unwanted fragmentation, and a shallow instrument so to maximize the geometric factor. In this paper, a novel tracking approach for gamma rays which tries to reconcile these two conflicting requirements is presented. The proposal is based on the Tracker-In-Calorimeter (TIC) design that relies on a highly-segmented calorimeter to track the incident gamma ray by sampling the lateral development of the electromagnetic shower at different depths. The effectiveness of this approach has been studied with Monte Carlo simulations and has been validated with test beam data of a detector prototype., Comment: 17 pages, 8 figures, 2 tables

Published

2020

25. Transverse single-spin asymmetry for very forward neutral pion production in polarized $p+p$ collisions at $\sqrt{s} = 510$ GeV

Author

Kim, M. H., Adriani, O., Berti, E., Bonechi, L., D'Alessandro, R., Goto, Y., Hong, B., Itow, Y., Kasahara, K., Menjo, H., Nakagawa, I., Park, J. S., Sako, T., Sakurai, N., Sato, K., Seidl, R., Tanida, K., Torii, S., Tricomi, A., Ueno, M., Makino, Y., Zhou, Q. D., Lee, J. H., Ljubicic, T., and Ogawa, A.

Subjects

High Energy Physics - Experiment, Nuclear Experiment

Abstract

Transverse single-spin asymmetries of very forward neutral pions generated in polarized $p + p$ collisions allow us to understand the production mechanism in terms of perturbative and non-perturbative strong interactions. During 2017 the RHICf Collaboration installed an electromagnetic calorimeter in the zero-degree region of the STAR detector at the Relativistic Heavy Ion Collider (RHIC) and measured neutral pions produced at pseudorapidity larger than 6 in polarized $p$+$p$ collisions at $\sqrt{s}$ = 510 GeV. The large non-zero asymmetries increasing both in longitudinal momentum fraction $x_{F}$ and transverse momentum $p_{T}$ have been observed at low transverse momentum $p_{T} < 1$ GeV/$c$ for the first time at this collision energy. The asymmetries show an approximate $x_{F}$ scaling in the $p_{T}$ region where non-perturbative processes are expected to dominate. A non-negligible contribution from soft processes may be necessary to explain the nonzero neutral pion asymmetries., Comment: This paper submitted to PRL is the final result of arXiv:1902.07852

Published

2020

26. Measurement of energy flow, cross section and average inelasticity of forward neutrons produced in $\mathrm{\sqrt{s} = 13 TeV}$ proton-proton collisions with the LHCf Arm2 detector

Author

Adriani, O., Berti, E., Bonechi, L., Bongi, M., D'Alessandro, R., Detti, S., Haguenauer, M., Itow, Y., Kasahara, K., Menjo, H., Muraki, Y., Ohashi, K., Papini, P., Ricciarini, S., Sako, T., Sakurai, N., Sato, K., Tamura, T., Tiberio, A., Torii, S., Tricomi, A., Turner, W. C., and Ueno, M.

Subjects

High Energy Physics - Experiment

Abstract

In this paper, we report the measurement of the energy flow, the cross section and the average inelasticity of forward neutrons (+ antineutrons) produced in $\sqrt{s} = 13$ TeV proton-proton collisions. These quantities are obtained from the inclusive differential production cross section, measured using the LHCf Arm2 detector at the CERN Large Hadron Collider. The measurements are performed in six pseudorapidity regions: three of them ($\eta > 10.75$, $8.99 < \eta < 9.21$ and $8.80 < \eta < 8.99$), albeit with smaller acceptance and larger uncertainties, were already published in a previous work, whereas the remaining three ($10.06 < \eta < 10.75$, $9.65 < \eta < 10.06$ and $8.65 < \eta < 8.80$) are presented here for the first time. The analysis was carried out using a data set acquired in June 2015 with a corresponding integrated luminosity of $\mathrm{0.194~nb^{-1}}$. Comparing the experimental measurements with the expectations of several hadronic interaction models used to simulate cosmic ray air showers, none of these generators resulted to have a satisfactory agreement in all the phase space selected for the analysis. The inclusive differential production cross section for $\eta > 10.75$ is not reproduced by any model, whereas the results still indicate a significant but less serious deviation at lower pseudorapidities. Depending on the pseudorapidity region, the generators showing the best overall agreement with data are either SIBYLL 2.3 or EPOS-LHC. Furthermore, apart from the most forward region, the derived energy flow and cross section distributions are best reproduced by EPOS-LHC. Finally, even if none of the models describe the elasticity distribution in a satisfactory way, the extracted average inelasticity is consistent with the QGSJET II-04 value, while most of the other generators give values that lie just outside the experimental uncertainties., Comment: 22 pages, 11 figures

Published

2020

27. LHCf plan for p-Pb forward particle measurement

Author

Torii S., Tamura T., Suzuki T., Ricciarini S., Shimizu Y., Papini P., Perrot A.-L., Noda K., Muraki Y., Menjo H., Mitsuka G., Masuda K., Kawede K., Itow Y., Kasahara K., Iso T., Haguenauer M., D'Alessandro R., Castellini G., Bongi M., Bonechi L., Adriani O., Sako T., Tricomi A., and Turner W.C.

Subjects

Physics, QC1-999

Abstract

LHCf is planning to measure very forward particle emission in the LHC p-Pb collisions foreseen at the end of 2012. The measurement is expected to constrain the nuclear effect in the forward particle emission relevant to the CR-Air interaction. Model discrimination power of this measurement is presented together with some detail in technical feasibility.

Published

2013

28. Current status of the LHCf experiment and future plan

Author

Tamura T., Torii S., Suzuki T., Shimizu Y., Ricciarini S., Sako T., Papini P., Perrot A.-L., Noda K., Muraki Y., Mitsuka G., Masuda K., Menjo H., Kasahara K., Itow Y., Iso T., Haguenauer M., D'Alessandro R., Castellini G., Bongi M., Bonechi L., Adriani O., Kawade K., Tricomi A., and Turner W.C.

Subjects

Physics, QC1-999

Abstract

The Large Hadron Collider forward (= LHCf) experiment has successfully finished the first phase of data taking at LHC √s = 0.9 and 7 TeV proton-proton collisions in 2010. As current status, we concentrate on analyzing the obtained data. As the first result, the energy spectra of photon measured by LHCf during = 7 TeV p-p collision has been published recently. Also the study of the upgraded version of LHCf detector for future = 14TeV run scenario is developed with the GSO scintillator. Another possible plan of p-A(nuclear) collision in LHC is also studied. In this paper, as the current status of the experiment, analyses, and works for foreseen detector upgrade are summarized.

Published

2013

29. Measurement of the forward η meson production rate in p-p collisions at s = 13 TeV with the LHCf-Arm2 detector

Author

Adriani, O., Berti, E., Betti, P., Bonechi, L., Bongi, M., D’Alessandro, R., Detti, S., Hagenauer, M., Itow, Y., Kasahara, K., Kitagami, Y., Kondo, M., Matsubara, Y., Menjo, H., Muraki, Y., Ohashi, K., Papini, P., Piparo, G., Ricciarini, S., Sako, T., Sakurai, N., Scaringella, M., Shimizu, Y., Tamura, T., Tiberio, A., Torii, S., Tricomi, A., Turner, W. C., and Yoshida, K.

Published

2023

30. Transverse single spin asymmetry for very forward $\pi^{0}$ production in polarized proton-proton collisions at $\sqrt{s}$ = 510 GeV

Author

Kim, M. H., Hong, B., Goto, Y., Nakagawa, I., Seidl, R., Park, J. S., Tanida, K., Itow, Y., Menjo, H., Sato, K., Ueno, M., Zhou, Q. D., Sako, T., Kasahara, K., Suzuki, T., Torii, S., Sakurai, N., Adriani, O., Bonechi, L., Berti, E., D'Alessandro, R., and Tricomi, A.

Subjects

High Energy Physics - Experiment, Nuclear Experiment

Abstract

Transverse single spin asymmetry, $A_{N}$, of very forward $\pi^{0}$ production from polarized $p + p$ collisions provides new information toward an understanding of its production mechanism. $A_{N}$ of forward $\pi^{0}$ in the pseudorapidity region of $3 < \eta < 4$ has been described by the partonic structure of the proton in the perturbative QCD framework. However, recent data indicates a potential contribution from not only partonic but also diffractive interactions. In order to provide a new insight on the origin of the $A_{N}$, we measured the very forward $\pi^{0}$ production in the pseudorapidity region of $6 < \eta$ from $\sqrt{s}$ = 510 GeV polarized $p + p$ collisions at RHIC in 2017. We report our measurement of the very forward $\pi^{0}$ over the transverse momentum range of $0 < p_{T} < 1$ GeV/$c$ and the preliminary result., Comment: This paper was first presented for a proceeding of ISVHECRI 2018

Published

2019

31. Measurement of inclusive forward neutron production cross section in proton-proton collisions at $\mathrm{\sqrt{s} = 13~TeV}$ with the LHCf Arm2 detector

Author

Adriani, O., Berti, E., Bonechi, L., Bongi, M., D'Alessandro, R., Detti, S., Haguenauer, M., Itow, Y., Kasahara, K., Makino, Y., Masuda, K., Menjo, H., Muraki, Y., Ohashi, K., Papini, P., Ricciarini, S., Sako, T., Sakurai, N., Sato, K., Shinoda, M., Suzuki, T., Tamura, T., Tiberio, A., Torii, S., Tricomi, A., Turner, W. C., Ueno, M., and Zhou, Q. D.

Subjects

High Energy Physics - Experiment

Abstract

In this paper, we report the measurement relative to the production of forward neutrons in proton-proton collisions at $\mathrm{\sqrt{s} = 13~TeV}$ obtained using the LHCf Arm2 detector at the Large Hadron Collider. The results for the inclusive differential production cross section are presented as a function of energy in three different pseudorapidity regions: $\eta > 10.76$, $8.99 < \eta < 9.22$ and $8.81 < \eta < 8.99$. The analysis was performed using a data set acquired in June 2015 that corresponds to an integrated luminosity of $\mathrm{0.194~nb^{-1}}$. The measurements were compared with the predictions of several hadronic interaction models used to simulate air showers generated by Ultra High Energy Cosmic Rays. None of these generators showed good agreement with the data for all pseudorapidity intervals. For $\eta > 10.76$, no model is able to reproduce the observed peak structure at around $\mathrm{5~TeV}$ and all models underestimate the total production cross section: among them, QGSJET II-04 shows the smallest deficit with respect to data for the whole energy range. For $8.99 < \eta < 9.22$ and $8.81 < \eta < 8.99$, the models having the best overall agreement with data are SIBYLL 2.3 and EPOS-LHC, respectively: in particular, in both regions SIBYLL 2.3 is able to reproduce the observed peak structure at around $\mathrm{1.5-2.5~TeV}$.

Published

2018

32. CaloCube: a novel calorimeter for high-energy cosmic rays in space

Author

Cattaneo, P. W., Adriani, O., Albergo, S., Auditore, L., Basti, A., Berti, E., Bigongiari, G., Bonechi, L., Bonechi, S., Bongi, M., Bonvicini, V., Bottai, S., Brogi, P., Carotenuto, G., Castellini, G., ďAlessandro, R., Detti, S., Fasoli, M., Finetti, N., Italiano, A., Lenzi, P., Maestro, P., Marrocchesi, P. S., Mori, N., Olmi, M., Orzan, G., Pacini, L., Papini, P., Pellegriti, M. G., Rappoldi, A., Ricciarini, S., Rossella, M., Sciutto, A., Spillantini, P., Starodubtsev, O., Stolzi, F., Suh, J. E., Sulaj, A., Tiberio, A., Tricomi, A., Trifiró, A., Trimarchi, M., Vannuccini, E., Vedda, A., Zampa, G., and Zampa, N.

Subjects

Physics - Instrumentation and Detectors

Abstract

In order to extend the direct observation of high-energy cosmic rays up to the PeV region, highly performing calorimeters with large geometrical acceptance and high energy resolution are required. Within the constraint of the total mass of the apparatus, crucial for a space mission, the calorimeters must be optimized with respect to their geometrical acceptance, granularity and absorption depth. CaloCube is a homogeneous calorimeter with cubic geometry, to maximise the acceptance being sensitive to particles from every direction in space; granularity is obtained by relying on small cubic scintillating crystals as active elements. Different scintillating materials have been studied. The crystal sizes and spacing among them have been optimized with respect to the energy resolution. A prototype, based on CsI(Tl) cubic crystals, has been constructed and tested with particle beams. Some results of tests with different beams at CERN are presented., Comment: Seven pages, seven pictures. Proceedings of INSTR17 Novosibirsk

Published

2017

33. Measurement of forward photon production cross-section in proton-proton collisions at $\sqrt{s}$ = 13 TeV with the LHCf detector

Author

Adriani, O., Berti, E., Bonechi, L., Bongi, M., D'Alessandro, R., Haguenauer, M., Itow, Y., Iwata, T., Kasahara, K., Makino, Y., Masuda, K., Matsubayashi, E., Menjo, H., Muraki, Y., Papini, P., Ricciarini, S., Sako, T., Sakurai, N., Shinoda, M., Suzuki, T., Tamura, T., Tiberio, A., Torii, S., Tricomi, A., Turner, W. C., Ueno, M., and Zhou, Q. D.

Subjects

High Energy Physics - Experiment

Abstract

In this paper, we report the production cross-section of forward photons in the pseudorapidity regions of $\eta\,>\,10.94$ and $8.99\,>\,\eta\,>\,8.81$, measured by the LHCf experiment with proton--proton collisions at $\sqrt{s}$ = 13 TeV. The results from the analysis of 0.191 $\mathrm{nb^{-1}}$ of data obtained in June 2015 are compared to the predictions of several hadronic interaction models that are used in air-shower simulations for ultra-high-energy cosmic rays. Although none of the models agree perfectly with the data, EPOS-LHC shows the best agreement with the experimental data among the models., Comment: 21 pages, 4 figures

Published

2017

34. The reliability of muography applied in the detection of the animal burrows within River Levees validated by means of geophysical techniques

Author

Baccani, G., Bonechi, L., Bongi, M., Casagli, N., Ciaranfi, R., Ciulli, V., D'Alessandro, R., Gonzi, S., Lombardi, L., Morelli, S., Nocentini, M., Pazzi, V., Tacconi Stefanelli, C., and Viliani, L.

Published

2021

35. Measurements of longitudinal and transverse momentum distributions for neutral pions in the forward-rapidity region with the LHCf detector

Author

Adriani, O., Berti, E., Bonechi, L., Bongi, M., D'Alessandro, R., Del Prete, M., Haguenauer, M., Itow, Y., Kasahara, K., Kawade, K., Makino, Y., Masuda, K., Matsubayashi, E., Menjo, H., Mitsuka, G., Muraki, Y., Papini, P., Perrot, A. -L., Ricciarini, S., Sako, T., Sakurai, N., Suzuki, T., Tamura, T., Tiberio, A., Torii, S., Tricomi, A., Turner, W. C., and Zhou, Q. D.

Subjects

High Energy Physics - Experiment

Abstract

The differential cross sections for inclusive neutral pions as a function of transverse and longitudinal momentum in the very forward rapidity region have been measured at the Large Hadron Collider (LHC) with the Large Hadron Collider forward detector (LHCf) in proton-proton collisions at $\sqrt{s}=$ 2.76 and 7 TeV and in proton-lead collisions at nucleon-nucleon center-of-mass energies of $\sqrt{s_\text{NN}}=$ 5.02 TeV. Such differential cross sections in proton-proton collisions are compatible with the hypotheses of limiting fragmentation and Feynman scaling. Comparing proton-proton with proton-lead collisions, we find a sizable suppression of the production of neutral pions in the differential cross sections after subtraction of ultra-peripheral proton-lead collisions. This suppression corresponds to the nuclear modification factor value of about 0.1-0.3. The experimental measurements presented in this paper provide a benchmark for the hadronic interaction Monte Carlo simulation codes that are used for the simulation of cosmic ray air showers., Comment: 47 pages, 23 figures, 59 tables, accepted in PRD

Published

2015

36. GAMMA-400 gamma-ray observatory

Author

Topchiev, N. P., Galper, A. M., Bonvicini, V., Adriani, O., Aptekar, R. L., Arkhangelskaja, I. V., Arkhangelskiy, A. I., Bakaldin, A. V., Bergstrom, L., Berti, E., Bigongiari, G., Bobkov, S. G., Boezio, M., Bogomolov, E. A., Bonechi, L., Bongi, M., Bottai, S., Castellini, G., Cattaneo, P. W., Cumani, P., Dalkarov, O. D., Dedenko, G. L., De Donato, C., Dogiel, V. A., Finetti, N., Gascon, D., Gorbunov, M. S., Gusakov, Yu. V., Hnatyk, B. I., Kadilin, V. V., Kaplin, V. A., Kaplun, A. A., Kheymits, M. D., Korepanov, V. E., Larsson, J., Leonov, A. A., Loginov, V. A., Longo, F., Maestro, P., Marrocchesi, P. S., Martinez, M., Menshenin, A. L., Mikhailov, V. V., Mocchiutti, E., Moiseev, A. A., Mori, N., Moskalenko, I. V., Naumov, P. Yu., Papini, P., Paredes, J. M., Pearce, M., Picozza, P., Rappoldi, A., Ricciarini, S., Runtso, M. F., Ryde, F., Serdin, O. V., Sparvoli, R., Spillantini, P., Stozhkov, Yu. I., Suchkov, S. I., Taraskin, A. A., Tavani, M., Tiberio, A., Tyurin, E. M., Ulanov, M. V., Vacchi, A., Vannuccini, E., Vasilyev, G. I., Ward, J. E., Yurkin, Yu. T., Zampa, N., Zirakashvili, V. N., and Zverev, V. G.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The GAMMA-400 gamma-ray telescope with excellent angular and energy resolutions is designed to search for signatures of dark matter in the fluxes of gamma-ray emission and electrons + positrons. Precision investigations of gamma-ray emission from Galactic Center, Crab, Vela, Cygnus, Geminga, and other regions will be performed, as well as diffuse gamma-ray emission, along with measurements of high-energy electron + positron and nuclei fluxes. Furthermore, it will study gamma-ray bursts and gamma-ray emission from the Sun during periods of solar activity. The energy range of GAMMA-400 is expected to be from ~20 MeV up to TeV energies for gamma rays, up to 20 TeV for electrons + positrons, and up to 10E15 eV for cosmic-ray nuclei. For high-energy gamma rays with energy from 10 to 100 GeV, the GAMMA-400 angular resolution improves from 0.1{\deg} to ~0.01{\deg} and energy resolution from 3% to ~1%; the proton rejection factor is ~5x10E5. GAMMA-400 will be installed onboard the Russian space observatory., Comment: 8 pages, 2 figures, 2 tables, submitted to the proceedings of ICRC2015

Published

2015

37. Measurement of very forward neutron energy spectra for 7 TeV proton--proton collisions at the Large Hadron Collider

Author

Adriani, O., Berti, E., Bonechi, L., Bongi, M., Castellini, G., D'Alessandro, R., Del Prete, M., Haguenauer, M., Itow, Y., Kasahara, K., Kawade, K., Makino, Y., Masuda, K., Matsubayashi, E., Menjo, H., Mitsuka, G., Muraki, Y., Okuno, Y., Papini, P., Perrot, A-L., Ricciarini, S., Sako, T., Sakurai, N., Sugiura, Y., Suzuki, T., Tamura, T., Tiberio, A., Torii, S., Tricomi, A., Turner, W. C., and Zhou, Q. D.

Subjects

High Energy Physics - Experiment, Nuclear Experiment

Abstract

The Large Hadron Collider forward (LHCf) experiment is designed to use the LHC to verify the hadronic-interaction models used in cosmic-ray physics. Forward baryon production is one of the crucial points to understand the development of cosmic-ray showers. We report the neutron-energy spectra for LHC $\sqrt{s}$ = 7 TeV proton--proton collisions with the pseudo-rapidity $\eta$ ranging from 8.81 to 8.99, from 8.99 to 9.22, and from 10.76 to infinity. The measured energy spectra obtained from the two independent calorimeters of Arm1 and Arm2 show the same characteristic feature before unfolding the difference in the detector responses. We unfolded the measured spectra by using the multidimensional unfolding method based on Bayesian theory, and the unfolded spectra were compared with current hadronic-interaction models. The QGSJET II-03 model predicts a high neutron production rate at the highest pseudo-rapidity range similar to our results and the DPMJET 3.04 model describes our results well at the lower pseudo-rapidity ranges. However no model perfectly explains the experimental results in the whole pseudo-rapidity range. The experimental data indicate the most abundant neutron production rate relative to the photon production, which does not agree with predictions of the models., Comment: 10pages, 6 figures

Published

2015

38. Muography as a support technique for non-invasive research and three-dimensional localization of tombs in archaeological sites: a case study from Palazzone Necropolis (Perugia – Italy)

Author

Borselli, D., primary, Beni, T., additional, Bonechi, L., additional, Bongi, M., additional, Ciaranfi, R., additional, Ciulli, V., additional, D'Alessandro, R., additional, Fanò, L., additional, Frosin, C., additional, Gonzi, S., additional, Lombardi, L., additional, Melelli, L., additional, Paccagnella, A., additional, and Turchetti, M.A., additional

Published

2024

39. Assessing the Feasibility of Interrogating Nuclear Waste Storage Silos using Cosmic-ray Muons

Author

Ambrosino, F., Bonechi, L., Cimmino, L., D'Alessandro, R., Ireland, D. G., Kaiser, R., Mahon, D. F., Mori, N., Noli, P., Saracino, G., Shearer, C., Viliani, L., and Yang, G.

Subjects

Physics - Instrumentation and Detectors

Abstract

Muon radiography is a fast growing field in applied scientific research. In recent years, many detector technologies and imaging techniques using the Coulomb scattering and absorption properties of cosmic-ray muons have been developed for the non-destructive assay of various structures across a wide range of applications. This work presents the first results that assess the feasibility of using muons to interrogate waste silos within the UK Nuclear Industry. Two such approaches, using different techniques that exploit each of these properties, have previously been published, and show promising results from both simulation and experimental data for the detection of shielded high-Z materials and density variations from volcanic assay. Both detector systems are based on scintillator and photomultiplier technologies. Results from dedicated simulation studies using both these technologies and image reconstruction techniques are presented for an intermediate-sized nuclear waste storage facility filled with concrete and an array of uranium samples. Both results highlight the potential to identify uranium objects of varying thicknesses greater than 5cm within real-time durations of several weeks. Increased contributions from Coulomb scattering within the concrete of the structure hinder the ability of both approaches to resolve objects of 2cm dimensions even with increased statistics. These results are all dependent on both the position of the objects within the facility and the locations of the detectors. Results for differing thicknesses of concrete, which reflect the unknown composition of the structures under interrogation, are also presented alongside studies performed for a series of data collection durations. It is anticipated that with further research, muon radiography in one, or both of these forms, will play a key role in future industrial applications within the UK Nuclear Industry., Comment: 7 pages, 4 figures

Published

2014

40. Proposal; Precise measurements of very forward particle production at RHIC

Author

Itow, Y., Menjo, H., Sako, T., Sakurai, N., Kasahara, K., Suzuki, T., Torii, S., Adriani, O., Bonechi, L., D'Alessandro, R., Mitsuka, G., Tricomi, A., Goto, Y., and Tanida, K.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Nuclear Experiment

Abstract

We propose a new experiment Relativistic Heavy Ion Collider forward (RHICf) for the precise measurements of very forward particle production at RHIC. The proposal is to install the LHCf Arm2 detector in the North side of the ZDC installation slot at the PHENIX interaction point. By installing high-resolution electromagnetic calorimeters at this location we can measure the spectra of photons, neutrons and pi0 at pseudorapidity eta>6., Comment: 31 pages, 18 figures, submitted to RHIC PAC in 2014. arXiv admin note: text overlap with arXiv:1401.1004

Published

2014

41. Transverse momentum distribution and nuclear modification factor of forward neutral pion in proton--lead collisions at $\sqrt{s_{NN}} = 5.02$TeV

Author

Adriani, O., Berti, E., Bonechi, L., Bongi, M., Castellini, G., D'Alessandro, R., Del Prete, M., Haguenauer, M., Itow, Y., Kasahara, K., Kawade, K., Makino, Y., Masuda, K., Matsubayashi, E., Menjo, H., Mitsuka, G., Muraki, Y., Papini, P., Perrot, A. -L., Pfeiffer, D., Ricciarini, S., Sako, T., Sakurai, N., Suzuki, T., Tamura, T., Tiberio, A., Torii, S., Tricomi, A., and Turner, W. C.

Subjects

Nuclear Experiment, High Energy Physics - Experiment

Abstract

The transverse momentum ($p_\text{T}$) distribution for inclusive neutral pions in the very forward rapidity region has been measured, with the Large Hadron Collider forward detector (LHCf), in proton--lead collisions at nucleon-nucleon center-of-mass energies of $\sqrt{s_{NN}} = 5.02$TeV at the LHC. The $p_\text{T}$ spectra obtained in the rapidity range $-11.0 < y_\text{lab} < -8.9$ and $0 < p_\text{T} < 0.6$GeV (in the detector reference frame) show a strong suppression of the production of neutral pions after taking into account ultra-peripheral collisions. This leads to a nuclear modification factor value, relative to the interpolated $p_\text{T}$ spectra in proton-proton collisions at $\sqrt{s} = 5.02$TeV, of about 0.1--0.4. This value is compared with the predictions of several hadronic interaction Monte Carlo simulations., Comment: 13 pages, 7 figures; 9 tables, accepted in Phys. Rev. C

Published

2014

42. Imaging the dome of Santa Maria del Fiore using cosmic rays

Author

Guardincerri, E., Bacon, J. D., Barros, N., Blasi, C., Bonechi, L., Chen, A., D’Alessandro, R., Durham, J. M., Fine, M., Mauger, C., Mayers, G., Morris, C., Newcomer, F. M., Okasinski, J., Pizzico, T., Plaud-Ramos, K., Poulson, D. C., Reilly, M. B., Roberts, A., Saeid, T., Vaccaro, V., and Van Berg, R.

Published

2019

43. Applications of muon absorption radiography to the fields of archaeology and civil engineering

Author

Saracino, G., Ambrosino, F., Bonechi, L., Cimmino, L., D’Alessandro, R., D’Errico, M., Noli, P., Scognamiglio, L., and Strolin, P.

Published

2019

44. Tests of a novel imaging algorithm to localize hidden objects or cavities with muon radiography

Author

Bonechi, L., Baccani, G., Bongi, M., Brocchini, D., Casagli, N., Ciaranfi, R., Cimmino, L., Ciulli, V., D’Alessandro, R., Del Ventisette, C., Dini, A., Gigli, G., Gonzi, S., Guideri, S., Lombardi, L., Melon, B., Mori, N., Nocentini, M., Noli, P., Saracino, G., and Viliani, L.

Published

2019

45. Volcanoes in Italy and the role of muon radiography

Author

D’Alessandro, Raffaello, Ambrosino, F., Baccani, G., Bonechi, L., Bongi, M., Caputo, A., Ciaranfi, R., Cimmino, L., Ciulli, V., D’Errico, M., Giudicepietro, F., Gonzi, S., Macedonio, G., Masone, V., Melon, B., Mori, N., Noli, P., Orazi, M., Passeggio, P., Peluso, R., Saracino, G., Scognamiglio, L., Strolin, P., Vertechi, E., and Viliani, L.

Published

2019

46. The performance of the LHCf detector for hadronic showers

Author

Kawade, K., Adriani, O., Bonechi, L., Bongi, M., Castellini, G., DAlessandro, R., Del Prete, M., Haguenauer, M., Itow, Y., Kasahara, K., Makino, Y., Masuda, K., Matsubayashi, E., Menjo, H., Mitsuka, G., Muraki, Y., Papini, P., Perrot, A-L., Ricciarini, S., Sako, T., Sakurai, N., Shimizu, Y., Suzuki, T., Tamura, T., Torii, S., Tricomi, A., and Turner, W. C.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The Large Hadron Collider forward (LHCf) experiment has been designed to use the LHC to benchmark the hadronic interaction models used in cosmic-ray physics. The LHCf experiment measures neutral particles emitted in the very forward region of LHC collisions. In this paper, the performances of the LHCf detectors for hadronic showers was studied with MC simulations and beam tests. The detection efficiency for neutrons is from 60% to 70% above 500 GeV. The energy resolutions are about 40% and the position resolution is 0.1 to 1.3mm depend on the incident energy for neutrons. The energy scale determined by the MC simulations and the validity of the MC simulations were examined using 350 GeV proton beams at the CERN-SPS., Comment: 15pages, 19 figures

Published

2013

47. Measurement of zero degree inclusive photon energy spectra for $\sqrt{s}=$ 900 GeV proton-proton collisions at LHC

Author

Adriani, O., Bonechi, L., Bongi, M., Castellini, G., D'Alessandro, R., Fukatsu, K., Haguenauer, M., Iso, T., Itow, Y., Kasahara, K., Kawade, K., Mase, T., Masuda, K., Menjo, H., Mitsuka, G., Muraki, Y., Noda, K., Papini, P., Perrot, A. -L., Ricciarini, S., Sako, T., Suzuki, K., Suzuki, T., Taki, K., Tamura, T., Torii, S., Tricomi, A., and Turner, W. C.

Subjects

High Energy Physics - Experiment, Nuclear Experiment

Abstract

The inclusive photon energy spectra measured by the Large Hadron Collider forward (LHCf) experiment in the very forward region of LHC proton-proton collisions at $\sqrt{s}=$ 900 GeV are reported. The results from the analysis of 0.30 $\mathrm{nb^{-1}}$ of data collected in May 2010 in the two pseudorapidity regions of $\eta > 10.15$ and $8.77 < \eta < 9.46$ are compared with the predictions of the hadronic interaction models DPMJET 3.04, EPOS 1.99, PYTHIA 8.145, QGSJET I -.1em I-03 and SIBYLL 2.1, which are widely used in ultra-high-energy cosmic-ray experiments. EPOS 1.99 and SYBILL 2.1 show a reasonable agreement with the spectral shape of the experimental data, whereas they predict lower cross-sections than the data. The other models, DPMJET 3.04, QGSJET I -.1em I-03 and PYTHIA 8.145, are in good agreement with the data below 300 GeV but predict harder energy spectra than the data above 300 GeV. The results of these comparisons exhibited features similar to those for the previously reported data for $\sqrt{s}=$ 7 TeV collisions.

Published

2012

48. Measurement of forward neutral pion transverse momentum spectra for $\sqrt{s}$ = 7TeV proton-proton collisions at LHC

Author

Adriani, O., Bonechi, L., Bongi, M., Castellini, G., D'Alessandro, R., Fukatsu, K., Haguenauer, M., Iso, T., Itow, Y., Kasahara, K., Kawade, K., Mase, T., Masuda, K., Menjo, H., Mitsuka, G., Muraki, Y., Noda, K., Papini, P., Perrot, A. -L., Ricciarini, S., Sako, T., Shimizu, Y., Suzuki, K., Suzuki, T., Taki, K., Tamura, T., Torii, S., Tricomi, A., and Turner, W. C.

Subjects

High Energy Physics - Experiment

Abstract

The inclusive production rate of neutral pions in the rapidity range greater than $y=8.9$ has been measured by the Large Hadron Collider forward (LHCf) experiment during LHC $\sqrt{s}=7$\,TeV proton-proton collision operation in early 2010. This paper presents the transverse momentum spectra of the neutral pions. The spectra from two independent LHCf detectors are consistent with each other and serve as a cross check of the data. The transverse momentum spectra are also compared with the predictions of several hadronic interaction models that are often used for high energy particle physics and for modeling ultra-high-energy cosmic-ray showers., Comment: 18 Pages, 10 figures, submitted to Phys. Rev. D

Published

2012

49. Observations of the December 13 and 14, 2006, Solar Particle Events in the 80 MeV/n - 3 GeV/n range from space with PAMELA detector

Author

Adriani, O., Barbarino, G. C., Bazilevskaya, G. A., Bellotti, R., Boezio, M., Bogomolov, E. A., Bonechi, L., Bongi, M., Bonvicini, V., Borisov, S., Bottai, S., Bruno, A., Cafagna, F., Campana, D., Carbone, R., Carlson, P., Casolino, M., Castellini, G., Consiglio, L., De Pascale, M. P., De Santis, C., De Simone, N., Di Felice, V., Galper, A. M., Grishantseva, L., Gillard, W., Jerse, G., Karelin, A. V., Koldashov, S. V., Krutkov, S. Y., Kvashnin, A. N., Leonov, A., Malakhov, V., Marcelli, L., Mayorov, A. G., Menn, W., Mikhailov, V. V., Mocchiutti, E., Monaco, A., Mori, N., Nikonov, N., Osteria, G., Palma, F., Papini, P., Pearce, M., Picozza, P., Pizzolotto, C., Ricci, M., Ricciarini, S. B., Sarkar, R., Rossetto, L., Simon, M., Sparvoli, R., Spillantini, P., Stozhkov, Y. I., Vacchi, A., Vannuccini, E., Vasilyev, G., Voronov, S. A., Wu, J., Yurkin, Y. T., Zampa, G., Zampa, N., and Zverev, V. G.

Subjects

Astrophysics - Solar and Stellar Astrophysics, High Energy Physics - Experiment

Abstract

We present the space spectrometer PAMELA observations of proton and helium fluxes during the December 13 and 14, 2006 solar particle events. This is the first direct measurement of the solar energetic particles in space with a single instrument in the energy range from $\sim$ 80 MeV/n up to $\sim$ 3 GeV/n. In the event of December 13 measured energy spectra of solar protons and helium were compared with results obtained by neutron monitors and other detectors. Our measurements show a spectral behaviour different from those derived from the neutron monitor network. No satisfactory analytical fitting was found for the energy spectra. During the first hours of the December 13 event solar energetic particles spectra were close to the exponential form demonstrating rather significant temporal evolution. Solar He with energy up to ~1 GeV/n was recorded on December 13. In the event of December 14 energy of solar protons reached ~600 MeV whereas maximum energy of He was below 100 MeV/n. The spectra were slightly bended in the lower energy range and preserved their form during the second event. Difference in the particle flux appearance and temporal evolution in these two events may argue for a special conditions leading to acceleration of solar particles up to relativistic energies., Comment: Accepted for publication on Astrophysical journal

Published

2011

50. Measurement of zero degree single photon energy spectra for sqrt(s) = 7TeV proton-proton collisions at LHC

Author

Adriani, O., Bonechi, L., Bongi, M., Castellini, G., D'Alessandro, R., Faus, A., Fukatsu, K., Haguenauer, M., Itow, Y., Kasahara, K., Kawade, K., Macina, D., Mase, T., Masuda, K., Matsubara, Y., Menjo, H., Mitsuka, G., Muraki, Y., Nakai, M., Noda, K., Papini, P., Perrot, A. -L., Ricciarini, S., Sako, T., Shimizu, Y., Suzuki, K., Suzuki, T., Taki, K., Tamura, T., Torii, S., Tricomi, A., Turner, W. C., Velasco, J., Viciani, A., and Yoshida, K.

Subjects

High Energy Physics - Experiment

Abstract

In early 2010, the Large Hadron Collider forward (LHCf) experiment measured very forward neutral particle spectra in LHC proton-proton collisions. From a limited data set taken under the best beam conditions (low beam-gas background and low occurance of pile-up events), the single photon spectra at sqrt(s)=7TeV and pseudo-rapidity (eta) ranges from 8.81 to 8.99 and from 10.94 to infinity were obtained for the first time and are reported in this paper. The spectra from two independent LHCf detectors are consistent with one another and serve as a cross check of the data. The photon spectra are also compared with the predictions of several hadron interaction models that are used extensively for modeling ultra high energy cosmic ray showers. Despite conservative estimates for the systematic errors, none of the models agree perfectly with the measurements. A notable difference is found between the data and the DPMJET 3.04 and PYTHIA 8.145 hadron interaction models above 2TeV where the models predict higher photon yield than the data. The QGSJET II-03 model predicts overall lower photon yield than the data, especially above 2TeV in the rapidity range 8.81

Published

2011