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Gianfranco Ingratta

ORCID: 0000-0003-0276-1658
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A5009989890
Research Areas
  • Neutrino Physics Research
  • Particle Detector Development and Performance
  • Astrophysics and Cosmic Phenomena
  • Dark Matter and Cosmic Phenomena
  • Radiation Detection and Scintillator Technologies
  • Particle physics theoretical and experimental studies
  • Particle accelerators and beam dynamics
  • Muon and positron interactions and applications
  • Nuclear Physics and Applications
  • Atomic and Subatomic Physics Research

GNA University
 2025

Istituto Nazionale di Fisica Nucleare, Sezione di Bologna
 2021-2025

University of Bologna
 2021-2024

Istituto Nazionale di Fisica Nucleare
 2024

 Design and Implementation of the Cosmic Ray Tagger System for the ICARUS detector at FNAL
OPENALEX - Publications 
Antoni Aduszkiewicz L. Bagby B. Behera P. Bernardini S. Bertolucci and 48 more M. Betancourt H. S. Budd T. Boone A. Campos D. Casazza V. Cicero D. Cherdack T. E. Coan Lorenzo Degli Esposti D. Di Ferdinando L. Di Noto C. Guandalini M. Guerzoni A. Heggestuen C. Hilgenberg R. Howell M. Iliescu Gianfranco Ingratta T. Kim U. Köse G. Laurenti C. Mariani N. Mauri K. S. McFarland E. Montagna A. Montanari N. Moggi M. Murphy L. Pasqualini V. Paolone L. Patrizii G. Pellegrini V. Pia F. Poppi M. Pozzato Alessandro Ruggeri P. Sala P. Sapienza A. Schukraft G. Sirri L. Stančo A. Surdo M. Tenti V. Togo N. Tosi M. Vicenzi R. J. Wilson S. Zucchelli

The ICARUS-T600 Liquid Argon Time Projection Chamber is operating at Fermilab shallow depth and thus exposed to a high flux of cosmic rays that can fake neutrino interactions. A ray tagging (CRT) system ($\sim$1100 m$^2$), surrounding the cryostat with two layers fiber embedded plastic scintillators, was developed mitigate induced background. Using nanosecond-level timing information, CRT distinguish incoming from outgoing particles interactions in TPC. In this paper an overview system, its...

10.48550/arxiv.2501.03034 preprint EN OSTI OAI (U.S. Department of Energy Office of Scientific and Technical Information) 2025-01-06
 Design and implementation of the cosmic ray tagger system for the ICARUS detector at FNAL
OPENALEX - Publications 
Antoni Aduszkiewicz L. Bagby B. Behera P. Bernardini S. Bertolucci and 48 more M. Betancourt H. S. Budd T. Boone A. Campos D. Casazza V. Cicero D. Cherdack T. E. Coan L. Degli Esposti D. Di Ferdinando L. Di Noto C. Guandalini M. Guerzoni A. Heggestuen C. Hilgenberg R. Howell M. Iliescu Gianfranco Ingratta T. Kim U. Kose G. Laurenti C. Mariani N. Mauri K. S. McFarland E. Montagna A. Montanari N. Moggi M. Murphy L. Pasqualini V. Paolone L. Patrizii G. Pellegrini V. Pia Francesco Poppi M. Pozzato Alessandro Ruggeri P. Sala P. Sapienza A. Schukraft G. Sirri L. Stančo A. Surdo M. Tenti V. Togo N. Tosi M. Vicenzi R.J. Wilson S. Zucchelli

Abstract The ICARUS-T600 Liquid Argon Time Projection Chamber is operating at Fermilab shallow depth and thus exposed to a high flux of cosmic rays that can fake neutrino interactions. A ray tagging (CRT) system (∼ 1100 m 2 ), surrounding the cryostat with two layers fiber embedded plastic scintillators, was developed mitigate induced background. Using nanosecond-level timing information, CRT distinguish incoming from outgoing particles interactions in TPC. In this paper an overview system,...

10.1088/1748-0221/20/04/t04002 article EN cc-by Journal of Instrumentation 2025-04-01
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