FOOT Papers:

G. Silvestre, Characterization of 150𝛍m thick silicon microstrip prototype for the FOOT experiment, JINST, 10.1088/1748-0221/17/12/P12012

A. De Gregorio et al, Elemental fragmentation cross sections for a 16O beam of 400 MeV/u kinetic energy interacting with a graphite target using the FOOT ΔE-TOF detectors, Frontiers in Physics, https://doi.org/10.3389/fphy.2022.979229

A.C. Kraan et al, Charge identication of nuclear fragments with the FOOT Time-Of-Flight system, NIM A, DOI:10.1016/j.nima.2021.165206

G. Battistoni et al, Measuring the Impact of Nuclear Interaction in Particle Therapy and in Radio Protection in Space: the FOOT Experiment, Frontier in Physics, doi: 10.3389/fphy.2020.568242

M. Morrocchi et al, Performance Evaluation of the TOF-Wall Detector of the FOOT Experiment, IEEE Trans. Nucl. Sci. (doi:10.1109/TNS.2020.3041433) 

Dong Yunsheng et al, The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration, NIM A 986 (2021) 164756,  DOI: http://dx.doi.org/10.1016/j.nima.2020.164756

L. Galli et al, Fragment charge identification technique with a plastic scintillator detector using clinical carbon beams, NIM A 953 10.1016/j.nima.2019.163146 

G. Galati et al, Charge identification of fragments with the emulsion spectrometer of the FOOT experiment, Open Physics, https://doi.org/10.1515/phys-2021-0032

I. Mattei, Measurements of 12C fragmentation cross sections on C, O and H in the energy range of interest for particle therapy applications, IEEE TRPMS. 4  DOI: 10.1109/TRPMS.2020.2972197

The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration

FOOT: a new experiment to measure nuclear fragmentation at intermediate energies https://doi.org/10.1016/j.pisc.2019.100415

Development and characterization of a dE-TOF detector prototype for the FOOT experiment


FOOT Presentations:

  • G. Ubaldi, The FOOT experiment: A first measurement of nuclear fragmentation cross section for hadrontherapy, Il Nuovo Cimento
  • L. Galli, The fragmentation trigger of the FOOT experiment, NIM A, https://doi.org/10.1016/j.nima.2022.167757
  • S. Biondi – Real Time 22 (2020) – Transactions of Nuclear Science
  • Dong Y.,Calibration and performance assessment of the FOOT drift chamber, SIF2020, slides, proceeding
  • Scavarda L , Presentation SIF2020, slides , proceeding
  • “Calibration and performances of the full scale ΔE-TOF system prototype of the FOOT experiment“, R. Zarrella for FOOT Collaboration, 14 Settembre 2020, 106 Congresso Nazionale SIF 2020, 14-18 Settembre, Milano link, proceeding
  • R. Ridolfi, Presentation SIF2020, proceeding
  • “FOOT: a project for fragmentation studies in hadrontherapy and space radioprotection“, M. Cristina Montesi for FOOT Collaboration, 15 Settembre 2020, 106 Congresso Nazionale SIF 2020, 14-18 Settembre, Milano (invited talk)
  • Colombi – 9th International Conference on New Frontiers in Physics (Crete, Greece) – proceeding
  • Traini – proc – Performance of the ToF detectors in the FOOT experiment
  • “Fragmentation measurements with the emulsion spectrometer of the FOOT experiment“, G. Galati for FOOT Collaboration, 14 Settembre 2020, 106 Congresso Nazionale SIF 2020, 14-18 Settembre, Milano
  • R. Ridolfi, NCC2020, The magnetic spectrometer of the FOOT experiment, proceeding

2019

2018

2017

2016


Theses:

  • R. Zarrella, “Charge identification of nuclear fragments with the Time-Of-Flight detectors of the FOOT experiment” (Aprile 2020) link
  • Brenda Capone “Studio di frammentazione di un fascio di 16O su un bersaglio di C2H4 con un rivelatore ad emulsioni nucleari per applicazioni adroterapiche” (Marzo 2020)
  • C. Ottaviani “The Inverse Kinematics approach in the FOOT experiment“, June 2018.
    Bachelor Thesis
  • R. Ridolfi “Study of the track reconstruction in the FOOT experiment for Hadrontherapy“, March 2018.
    Master Thesis, presentation
  • C. De Lucia, “The FOOT Experiment: the Associated Physics and its Acquisition System”, March 2018.
    Master Thesis
  • F. Neri “ESPERIMENTO FOOT: STUDI DI IDENTIFICAZIONE DI FRAMMENTI“, December 2017.
    Bachelor Thesis
  • F. Neri “Performance study of Kalman Filter track reconstruction algorithms in the FOOT experiment“, December 2017.
    Bachelor Thesis
  • Vezzali, “Sistema di DAQ per studi sulla terapia adronica: progetto in VHDL e implementazione su FPGA“, 2017.
    Bachelor ThesisPresentation.
  • A. Savarese, “SVILUPPO DEL FIRMWARE PER UN SISTEMA DI ACQUISIZIONE BASATO SU FPGA E FINALIZZATO AL MIGLIORAMENTO DELLE TECNICHE DI ADROTERAPIA“, 2017.
    Bachelor ThesisPresentation.
  • Y. Dong, “Study and design of a drift chamber in the FOOT experiment”, 2017. 
    Master ThesisPresentazione.
  • E. Verdolino “Studio di fattibilitĂ  di misure di frammentazione indotta da fasci utilizzati per la protonterapia”, 2016
    Tesi di Laurea (ita)Presentazione (pdf).

FOOT Posters: