M
Monica Alderighi
Researcher at INAF
Publications - 49
Citations - 927
Monica Alderighi is an academic researcher from INAF. The author has contributed to research in topics: Field-programmable gate array & Signal processing. The author has an hindex of 16, co-authored 48 publications receiving 858 citations.
Papers
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Journal ArticleDOI
Fragmentation studies with the CHIMERA detector at LNS in Catania: recent progress
Angelo Pagano,Monica Alderighi,F. Amorini,A. Anzalone,L. Arena,L. Auditore,V. Baran,M. Bartolucci,I. Berceanu,J. Blicharska,J. Brzychczyk,A. Bonasera,B. Borderie,R. Bougault,M. Bruno,G. Cardella,S. Cavallaro,M. B. Chatterjee,A. Chbihi,J. Cibor,Maria Colonna,M. D'Agostino,R. Dayras,E. De Filippo,M. Di Toro,W. Gawlikowicz,E. Geraci,F. Giustolisi,A. Grzeszczuk,P. Guazzoni,D. Guinet,M. Iacono-Manno,S. Kowalski,E. La Guidara,G. Lanzanó,G. Lanzalone,N. Le Neindre,S. M. Li,S. Lo Nigro,C. Maiolino,Z. Majka,G. Manfredi,T. Paduszynski,M. Papa,M. Petrovici,E. Piasecki,S. Pirrone,R. Planeta,G. Politi,Amalia Pop,F. Porto,M.F Rivet,E. Rosato,F. Rizzo,S. Russo,P. Russotto,M. Sassi,G.R. Sechi,V. Simion,K. Siwek-Wilczyńska,I. Skwira,M. L. Sperduto,J.C. Steckmeyer,L. Swiderski,A. Trifiro,M. Trimarchi,G. Vannini,Mariano Vigilante,J.P. Wieleczko,J. Wilczynski,H. Wu,Zhigang Xiao,L. Zetta,W. Zipper +73 more
TL;DR: In this paper, the authors present results of recent analysis concerning the production of intermediate mass fragments (IMF) in semi-peripheral collisions, combined with theoretical Boltzmann-Nordheim-Vlasov simulations clearly demonstrate the presence of very fast processes of IMF production in the overlapping region of the target and projectile nuclei during re-separation, i.e. in the time scale comparable with the collision time.
Proceedings ArticleDOI
Evaluation of Single Event Upset Mitigation Schemes for SRAM based FPGAs using the FLIPPER Fault Injection Platform
TL;DR: The FLIPPER fault injection platform allows testing the efficiency of the SEU mitigation scheme and applies stimuli derived from HDL simulation (VHDL/Verilog test-bench), while comparing the outputs with the golden pattern, also derived from simulation.
Journal ArticleDOI
Particle identification method in the CsI(Tl) scintillator used for the CHIMERA 4π detector
Monica Alderighi,A. Anzalone,R Basssini,I. Berceanu,J. Blicharska,C. Boiano,B. Borderie,R Bougault,M. Bruno,C. Cali,G. Cardella,S. Cavallaro,M. D'Agostino,M. D'Andrea,R. Dayras,E. De Filippo,F. Fichera,E. Geraci,F Giustolisi,A. Grzeszczuk,N. Guardone,P. Guazzoni,D. Guinet,C. M. Iacono-Manno,S. Kowalski,E. La Guidara,A. Lanchais,G. Lanzalone,G. Lanzano,N. Le Neindre,N. Le Neindre,S. M. Li,C. Maiolino,Z. Majka,G. Manfredi,D. Nicotra,T. Paduszynski,A. Pagano,M. Papa,C.M. Petrovici,E. Piasecki,S. Pirrone,G Politi,Amalia Pop,F Porto,M.F Rivet,Elio Rosato,G. Sacca,G.R. Sechi,V. Simion,M. L. Sperduto,J.C. Steckmeyer,Antonio Trifiro,M. Trimarchi,S. Urso,G. Vannini,Mariano Vigilante,J. Wilczynski,H. Wu,Zhigang Xiao,L. Zetta,W. Zipper +61 more
TL;DR: In this article, a simple double-gate integration method, with the use of the cyclotron radiofrequency as reference time, results in low thresholds for isotopic particle identification.
Proceedings ArticleDOI
A fault injection tool for SRAM-based FPGAs
TL;DR: A fault injection tool for SRAM-based FPGAs based on the fault emulation technique is presented, which makes the tool independent of the system used for design development and allows a quick fault injection.
Journal ArticleDOI
Mass and charge identification of fragments detected with the Chimera Silicon–CsI(Tl) telescopes
N. Le Neindre,Monica Alderighi,A. Anzalone,R. Barnà,M. Bartolucci,I. Berceanu,B. Borderie,R Bougault,M. Bruno,G. Cardella,S. Cavallaro,M. D'Agostino,R. Dayras,E. De Filippo,D. De Pasquale,E. Geraci,F Giustolisi,A. Grzeszczuk,P. Guazzoni,D. Guinet,M. Iacono-Manno,A Italiano,S. Kowalski,A. Lanchais,G Lanzanó,G. Lanzalone,G. Lanzalone,S. M. Li,S. Lo Nigro,C. Maiolino,G. Manfredi,D. Moisa,Angelo Pagano,M. Papa,T. Paduszynski,M. Petrovici,E. Piasecki,S Pirrone,G Politi,Amalia Pop,F Porto,M.F Rivet,Elio Rosato,S. Russo,S Sambataro,G.R. Sechi,V. Simion,M. L. Sperduto,J.C. Steckmeyer,C. M. Sutera,Antonio Trifiro,L. Tassan-Got,M. Trimarchi,G. Vannini,Mariano Vigilante,J. Wilczynski,H Wu,Z Xiao,L. Zetta,W Zipper +59 more
TL;DR: In this article, the mass and charge identification of charged products detected with the Chimera apparatus was studied using an identification function based on the Bethe-Bloch formula to fit empirical correlations between Δ E and E ADC readings, in order to determine, event by event, the atomic and mass numbers of the detected reaction products prior to energy calibration.