R&D: Papers

JOURNAL PAPERS

  1. Lodovico Ratti, Paolo Brogi, Gianmaria Collazuol, Gian-Franco Dalla Betta,
    Pier Simone Marrocchesi, Lucio Pancheri, Arta Sulay, Gianmarco Torilla, Carla Vacchi
    Layered CMOS SPADs for low noise detection of charged particles
    Front. Phys., 14 January 2021 | https://doi.org/10.3389/fphy.2020.607319
  2. P. Brogi, G. Bigongiari, C. Checchia, G. Collazuol, G.F. Dalla Betta, A. Ficorella,
    P.S. Marrocchesi, F. Morsani b, M. Musacci, G. Torilla, L. Pancheri, L. Ratti, A. Savoy-Navarro, L. Silvestrin, F. Stolzi, J.E. Suh, A. Sulaj, C. Vacchi, M. Zarghami,
    APiX, a two-tier avalanche pixel sensor for digital charged particle detection
  3. Nucl. Instr. and Meth. A, vol. 958, article 162546, 2020. doi: 10.1016/j.nima.2019.162546
    L. Ratti, P. Brogi, G. Collazuol, G.-F. Dalla Betta, A. Ficorella, P. S. Marrocchesi, F.Morsani. L. Pancheri, G. Torilla, C. Vacchi,
    DCR Performance in Neutron-Irradiated CMOS SPADs From 150- to 180-nm Technologies.
    IEEE Transactions on Nuclear Science, vol. 67, no. 7, pp. 1293-1301, July 2020
  4. L. Ratti, P. Brogi, G. Collazuol, G.-F. Dalla Betta, A. Ficorella, P.S. Marrocchesi, L. Pancheri, C. Vacchi,
    Dark count rate distribution in neutron-irradiated CMOS SPADs
    IEEE Trans. El. Dev., vol. 66, no. 12, pp. 5230-5237, Dec. 2019
  5. M. Musacci, G. Bigongiari, P. Brogi, C. Checchia, G. Collazuol, G.-F. Dalla Betta, A. Ficorella,
    P.S. Marrocchesi, S. Mattiazzo, F. Morsani, S. Noli, L. Pancheri, L. Ratti, A. Savoy-Navarro, L. Silvestrin, F. Stolzi, J. Suh, A. Sulaj, C. Vacchi, M. Zarghami,
    Radiation tolerance characterization of Geiger-mode CMOS avalanche diodes for a dual-layer particle detector
    Nucl. Instrum. Methods, vol. A936, pp. 695-696, 2019.
  6. L. Ratti, P. Brogi, G. Collazuol, G.-F. Dalla Betta, A. Ficorella, L. Lodola,
    P.S. Marrocchesi, S. Mattiazzo, F. Morsani, M. Musacci, L. Pancheri, C. Vacchi
    Dark count rate degradation in CMOS SPADs exposed to X-rays and neutrons
    IEEE Trans. Nucl. Sci., vol. 66, no. 2, pp. 567-574, 2019
  7. Ficorella, A., Pancheri, L., Brogi, P., Collazuol, G., Dalla Betta, G., Marrocchesi, P.S., Morsani, F., Ratti, L., Savoy-Navarro, A., Crosstalk Characterization of a Two-tier Pixelated Avalanche Sensor for Charged Particle Detection,
    IEEE Journal of Selected Topics in Quantum Electronics, vol. 24, no. 2, pp. 1-8, March-April 2018.
  8. Pancheri, L., Ficorella, A., Brogi, P., Collazuol, G., Dalla Betta, G.-F.,
    Marrocchesi, P.S., Morsani, F., Ratti, L., Savoy-Navarro, A., Sulaj, A.,
    First Demonstration of a Two-TierPixelatedAvalancheSensor for Charged ParticleDetection,
    IEEE Journal of the Electron Devices Society, 5 (5), art. no. 8008759, pp. 404-410, 2017.
  9. Pancheri, L., Brogi, P., Collazuol, G., DallaBetta, G.-F., Ficorella, A., Marrocchesi, P.S., Morsani, F., Ratti, L., Savoy-Navarro, A., First prototypes of two-tier avalanche pixel sensors for particle detection,
    Nuclear Instruments and Methods in Physics Research, Section A, 845, pp. 143-146, 2017.
  10. D'Ascenzo N., Marrocchesi P.S., Moon C.S., Morsani F., Ratti.L,, Saveliev V., Savoy Navarro A., Xie Q.
  11. A new-concept calorimeter for the detection of high-energy cosmic rays in space
    E.Vannuccini, P.S. Marrocchesi et al. 2017,
    Nucl.Instrum.Meth.A vol. 845, p. 421-424.
  12. Digital FDIRC: A focused differential internal reflection Cherenkov imaged by SiPM arrays
    P.S. Marrocchesi et al. 2016,.
    Nucl.Instrum.Meth.A vol. 824, p. 635-63
  13. New calorimeters for space experiments: physics requirements and technological challenges
    P.S. Marrocchesi, 2015
    Journal of Instrumentation, vol. 10, p. C0701
  14. Silicon avalanche pixel sensor for high precision tracking
    D'Ascenzo N., Marrocchesi P.S. et al,
    Journal of Instrumentation, 9-, C03027 (2014)
  15. Charged Particle Detection with NUV-Sensitive SiPM in a Beam of Relativistic Ions
    P.S. Marrocchesi et al. 2014, 8 pp.
    IEEE Transactions on Nuclear Science, Vol 61, 2786-2793, doi: 10.1109/TNS.2014.2348794
  16. Performance of a Scintillating Fiber Detector equipped with NuV-Sensitive SiPM in a Beam of Relativitsic Ions
    P.S. Marrocchesi et al. 2013, 5 pp.
    Proc. 2013 IEEE Nuclear Science Symposium and Medical Imaging Conference, N24.8, Seoul (South Korea), Oct 27-Nov 2,2013
  17. Performance of the Charge Detectors of CALET with Relativistic Ions
    P.S. Marrocchesi et al. 2013, 5 pp.
    Proc. 2013 IEEE Nuclear Science Symposium and Medical Imaging Conference, N31.3, Seoul (South Korea), Oct 27-Nov 2,2013
  18. Development of a 3-D cubic crystal calorimeter for space
    O. Adriani et al. 2013, 6 pp.
    Proc. 2013 Calorimetry for the High Energy Frontier, p. 454-459, Paris, Apr. 22-25,2013
  19. Homogeneous and isotropic calorimetry for space experiments performance of SiPM-based detectors for cosmic-ray experiments
    N. Mori et al. 2013, 5pp.
    Nucl.Instrum.Meth.A.732 (2013) 311-315
  20. Beam test performance of SiPM-based detectors for cosmic-ray experiments
    M. Y. Kim et al. 2013, 6pp.
    Nucl.Instrum.Meth.A.703 (2013) 177-182
  21. Beam test performance of a pixelated silicon array for the charge identification of cosmic rays
    P.. Maestro et al. 2012, 7pp.
    Nucl.Instrum.Meth.A.679, p. 7-13, ISSN: 0168-9002, doi: 10.1016/j.nima.2012.03.028
  22. Beam test performance of a scintillator-based detector for the charge identification of relativistic ions
    P.S. Marrocchesi et al. 2011, 7pp..
    Nucl.Instrum.Meth.A.659 (2011) 477-483
  23. A custom front-end ASIC for the readout and timing of 64 SiPM photosensors
    M. G. Bagliesi et al. 2011, 5pp.
    Nucl.Phys.B (Proc.Suppl.) 215:344-348,2011.
  24. An high resolution FDIRC for the measurement of cosmic-ray isotopic abundances.
    P.S. Marrocchesi et al. 2011, 7pp.
    Astroparticle Physics, vol. 35, p. 21-27, ISSN: 0927-6505, doi: 10.1016/j.astropartphys.2011.05.003
  25. A silicon array for cosmic-ray composition measurements in CALET
    P.S. Marrocchesi et al. 2008, 3pp.
    Proc. Int. Workshop Advances in Cosmic Ray Science (Tokio, March 2008), J. Phys. Soc. Jpn. 78 (2009) Suppl. A, pp. 181-183.
  26. Active control of the gain of a 3mm x 3mm Silicon PhotoMultiplier
    P.S. Marrocchesi et al. 2008, 5pp.
    Nuclear Instruments and Methods in Physics Research A 602 (2009) 391–395
  27. Test of front-end electronics with large dynamic range coupled to SiPM for space-based calorimeters.
    P.S. Marrocchesi et al. 2007. 4pp.
    Proceedings of the 30th International Cosmic Ray Conference (Merida, Mexico, 3-11 Jul 2007) vol. 2, pp. 317-320.
  28. Beam test results of pixelated silicon sensors for the charge identification of cosmic rays.
    P.S. Marrocchesi et al.
     2007. 4pp.
    Proceedings of the 30th International Cosmic Ray Conference (Merida, Mexico, 3-11 Jul 2007) vol. 2, pp. 321-324
  29. Conceptual design of a charge identifier array for cosmic ray composition measurements in CALET
    P.S. Marrocchesi et al. 2007. 4pp.
    Proceedings of the 30th International Cosmic Ray Conference (Merida, Mexico, 3-11 Jul 2007) vol. 2, pp. 301–304
  30. Front-end electronics with large dynamic range for space-borne cosmic ray experiments.
    M.G. Bagliesi et al, 2007. 3pp.
    Nucl.Phys.B (Proc.Suppl.) 172:156-158,2007.
  31. Development of a large area silicon pad detector for the identification of cosmic ions.
    M.Y. Kim et al. 2007. 3pp.
    Nucl.Phys.B (Proc.Suppl.) 172:162-164,2007.
  32. A large area silicon pixel array for the identification of relativistic nuclei in cosmic ray experiments.
    P.S. Marrocchesi et al. 2007. 3pp.
    Nucl.Instrum.Meth.A572:316-318,2007.
  33. Construction and test of a tungsten/Sci-Fi imaging calorimeter for the CREAM experiment.
    P.S. Marrocchesi et al. 2004. 4pp.
    Nucl.Instrum.Meth.A535:143-146,2004.
  34. Construction and test of a scintillator hodoscope for the CREAM experiment.
    P.S. Marrocchesi et al. 2004. 3pp.
    2nd International Conference on Particle and Fundamental Physics in Space (Washington, District of Columbia, 10-12 Dec 2003),
    Nucl.Phys.Proc.B (Proc.Suppl.) 134:75-77,2004.
  35. A low-power high dynamic range front-end ASIC for imaging calorimeters
    Proceedings of the 8th Workshop on Electronics for LHC Experiments (Colmar, 9-13 September 2002).

CONFERENCES

  • L. Ratti et al. "DCR degradation probability in CMOS SPADs exposed to a non-monochromatic neutron source",.
    European Conference on Radiation and Its Effects on Components and Systems (RADECS 2019), Montpellier, France, 16-20 September 2019
  • P. Brogi, et al. "APIX2: a two-tier avalanche pixel sensor for charged particle detection and timing", Vienna Conference on Instrumentation - Vienna, Austria, February 18-22, 2019.
  • P. Brogi et al. “APIX: a pixelated avalanche sensor for digital charged particle detection” .13th Trento Workshop on Advanced Silicon Radiation Detectors - Max-Plank-Institut fuer Physik, Monaco di Baviera, Feb. 19 – 21, 2018
  • P. S. Marrocchesi, et al., «ApiX: a Geiger-mode Avalanche Digital Sensor for Particle Detection"», IEEE NSS-MIC, Atlanta, US, Oct. 21 –28, 2017.
  • L. Ratti, et al., «CMOS SPAD sensors for particle tracking exposed to ionizing and non ionizing radiation», RADECS 2017, Geneva, CH, Oct. 2 –6, 2017.
  • L. Pancheri, et al., "Two-TierGeiger-Mode Avalanche Detector for Charged Particle Imaging", Proc. International Image Sensor Workshop (IISW), Hiroshima, Japan, May 30 –June 2, 2017.
  • M Musacci, et al., “Geiger-mode avalanche pixels in 180 nm HV CMOS process for a dual-layer particle detector”, IEEE NSS-MIC, Strasbourg, FR, 29 Oct. –5. Nov 2016.
  • L. Pancheri, et al., “Two-tier pixelated avalanche sensor for particle detection in 150nm CMOS”, IEEE NSS-MIC, Strasbourg, FR, 29 Oct. –5. Nov. 2016.
  • A. Ficorella, et al., “Crosstalk mapping in CMOS SPAD arrays”, (2016) European Solid-State Device Research Conference, Lausanne, CH, 12 –15 Sep. 2016.
  • L. Pancheri, et al., “Vertically-integrated CMOS Geiger-mode avalanche pixel sensors”, 14th Topical Seminar on Innovative Particle and Radiation Detectors (IPRD16), Siena, 3-6 Oct. 2016.
  • L. Pancheri, et al., “First prototypes of two-tier avalanche pixel sensors for particle detection”, Vienna Conference on Instrumentation, Vienna, O, February 15-19, 2016