76)  First test beam measurement of the 4D resolution of an RSD pixel matrix connected to a FAST2 ASIC, L. Menzio, F. Siviero et al,  submitted to NIM, https://arxiv.org/abs/2402.01517, (pdf)

75) Fluence profiling at JSI TRIGA reactor irradation facility, V. Sola  et al,  accepted in NIMA (pdf)

74) Design optimization of the UFSD inter-pad region, F. Siviero et al, submitted to NIM (pdf)

73) Machine learning for Precise Hit Position reconstruction in resistive Silicon Detectors, F. Siviero et al, JINST 19 C01028 (pdf)

72) "Advances in the TCAD modelling of non-irradiated and irradiated Low-Gain Avalanche Diode sensors" T. Croci et al, IWORID, 2023, JINST 19-01 C010022  (pdf)

71) "FAST3: Front-End Electronics to Read Out Thin Ultra-Fast Silicon Detectors for ps Resolution," A. M. Rojas, et al., 2022 IEEE Latin American Electron Devices Conference (LAEDC), Cancun, Mexico, 2022, pp. 1-4, doi:10.1109/LAEDC54796.2022.9908192 (pdf)

70) "Resistive read-out in Thin Silicon Sensors with Internal Gain", N. Cartiglia et al., (pdf) https://inspirehep.net/literature/2621486

69) "High precision 4D tracking with large pixels using thin resistive silicon detectors". R. Arcidiacono et al, NIMA, 1057 (2023), 168671 (pdf)

68) "TCAD optimization of LGAD sensors for extremely high fluence applications", T. Croci et al, IWORID, Riva del Garda 2022,  2023 JINST 18 C01008 (pdf)

67) " Development and test of innovative Low-Gain Avalance Diodes for particle tracking in 4 dimensions", T Croci et al., Pisa Meeting 2022 NIMA (2023), 167815  (pdf)

66) "Beam test results of 25 um and 35 um thick UFSD", F. Carnesecchi, S. Strazzi et al,  https://arxiv.org/abs/2208.05717, Eur. Phys. J. Plus (2023) 138:99 (pdf)

65) "A compensated design of the LGAD gain layer", V. Sola et al, NIMA 1040 (2022) 167232 (pdf)

64) "TCAD Modeling of Bulk Radiation Damage Effects in Silicon Devices with the Perugia Radiation Damage Model", P. Asenov et a., NIMA 1040 (2022) 167180  (PDF)

63) "Silicon sensors with resistive read-out: ML techniques for ultimate spatial resolution", M. Tornago et al, NIMA 1047 (2023) 167816 (pdf)

62) "The CMS MTD Endcap Timing Layer: precision timing with Low-Gain Avalanche Diodes", M. Ferrero et al., NIMA 1032 (2022) 166627 (pdf)

61) "DC-coupled resistive silicon detectors for 4D tracking", L. Menzio et al., NIMA 1041 (2022) 167374

, arxiv.org/abs/2204.07226 (pdf)

60)  "First experimental results of the spatial resolution of RSD pad arrays, readout wit a 16-ch board", F. Siviero et al., NIMA (2022), 167313, arxiv.org/abs/2204.06388 (pdf)

59) "4D Tracking: Present Status and Perspectives", N. Cartiglia et al., NIMA 1040 (2022) 167228, arxiv.org/abs/2204.06536 (pdf)

58) "Combined analysis of HPK 3.1 LGADs using a proton beam, beta source, and probe stations towards establishing high volume quality control", R. Heller et al., NIMA 1018 (2021) 165828 (pdf)

57) "High-accuracy 4D particle trackers with resistive silicon detectors (AC-LGAD)", R. Arcidiacono et al, (pdf) TWEEP 2021, JINST 17 C03013 2022  

56) "Amplifier discriminator ASICs to read-out thin Ultra-Fast Silicon detector for ps resolution", A. Rojas et al, (pdf),  2021 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), Piscataway, NJ, USA, 2021, pp. 1-4, doi: 10.1109/NSS/MIC44867.2021.9875441.

55) "Optimization of the gain layer design of Ultra-Fast Silicon Detectors", F. Siviero et al, https://arxiv.org/abs/2112.00561, NIMA 1033 (2022) 166739 (pdf)

54) "The second production of RSD (AC-LGAD) at FBK", M. Mandurrino et al, https://arxiv.org/abs/2111.14235, 2022 JINST 17 C08001

53)  "Development of Ultra-Fast silicon detector for 4D tracking", F. Carnesecchi et al, NIMA 936 (2019) 608-611 (pdf)

52) “Novel Strategies for fine-segmented Low gain Avalanche Diodes”, G. Paternoster et al., NIMA 987 (2021) 164840 pdf



51) “Experimental Study of Acceptor Removal in UFSD”, Y. Jin et al.,  NIMA 983 (2020) 164611 (pdf)



50)  “Resistive AC-Coupled Silicon Detector principles of operation and first results from beam test and laser combined analysis”,  M. Tornago et al, NIMA 1003 (2021) 165319 https://arxiv.org/abs/2007.09528 NIMA_RSD_MT (13).pdf



49) “First application of machine learning algorithms to the position reconstruction in  Resistive Silicon Detector”, F. Siviero et al.,  2021 JINST 16 P03019  pdf

48)  "Trench-Isolated Low Gain Avalanche Diodes (TI-LGADs)",  G. Paternoster et al., in IEEE Electron Device Letters, vol. 41, no. 6, pp. 884-887, June 2020, doi: 10.1109/LED.2020.2991351.pdf



47) “LGAD design for Future Particle Trackers”, N. Cartiglia et al., NIMA 979 (2020) 164383, HSTD12, https://doi.org/10.1016/j.nima.2020.164383 (pdf)

46) “Novel Strategies for Fine-Segmented Low Gain Avalanche Diodes", G. Paternoster et al.,  NIMA 987 (2021) 164840, HSTD12,  https://doi.org/10.1016/j.nima.2020.164840,  pdf



45)“Design and characterization of the FAST chip: a front-end for 4D tracking systems based on Ultra-Fast Silicon Detectors aiming at 30 ps time resolution”,  E. J. Olave et al., NIMA 985 (2021) 164615, HSTD12, pdf



44)“State-of-the-art and evolution of UFSD sensors design at FBK”,  R. Arcidiacono et al., NIMA,  978 (2020) 164375,  HSTD12 pdf



43) “Experimental Study of Acceptor Removal in UFSD”,  Y. Jin et al, NIMA 983 (2020) 164611  https://arxiv.org/abs/2003.07076, 2003.07076.pdf



42) “A multichannel front-end readout ASIC for picosecond time resolution systems based on UFSD”, E. J. Olave et al.,  JINST 15. C07012-C07012. 10.1088/1748-0221/15/07/C07012 July 2020, JINST_203P_0120.pdf



41) “Analysis and numerical design of Resistive AC-Coupled Silicon Detectors (RSD) for 4D particle tracking”, M. Mandurrino et al,    NIMA 959 (2020)  https://doi.org/10.1016/j.nima.2020.163479 (pdf)


40) “Next-generation tracking system for future hadron colliders”, V. Sola et al, Vertex2019, PoS, vs_Vertex2019.pdf



39) “Evolution of the design of ultra fast silicon detector to cope with high irradiation fluences and fine segmentation”,   M. Ferrero et al. JINST 15 C04027, IPRD19, MarcoFerreroIPRD.pdf



38)  “First demonstration of 200, 100, and 50 μm pitch Resistive AC-Coupled Silicon Detectors (RSD) with 100% fill-factor for 4D particle tracking”, M. Mandurrino et al., EDL IEEE ELECTRON DEVICE LETTERS, VOL. 40, NO. 11, NOVEMBER 2019 08846722.pdf



37) “Development of Ultra-Fast Silicon Detectors for 4D-tracking”, F. Siviero,   Il nuovo cimento 42 C (2019) 194 - ISSN 1826-9885, DOI 10.1393/ncc/i2019-19194-6,  pdf



36)  “FAST: a 30 ps time resolution front-end ASIC for a 4D tracking system based on UFSD”, F. Fausti, J. Olave, N. Cartiglia, TWEPP 2019, FAST_PoS_TWEPP19.pdf



35) “Development of low-energy X-rays detectors using LGAD sensors”,  M. Andrä et al, Journal of Synchrotron Radiation 2019, Volume 26, pages 1226 - 1237 Xray_LGAD.pdf



34)  “Tracking particles at fluences 5-10E16 neq/cm2”,  N. Cartiglia, H. Sadrozinski, A. Seiden, PoS, Vertex 2018, doi: https://doi.org/10.22323/1.348.0029 https://pos.sissa.it/348/029 (trk17.pdf) open access



33) “First FBK production of 50 micron ultra-fast Silicon detector”, V. Sola et al. ,  NIMA 924 (2019) 360-368 (pdf)


32) “Timing layers, 4- and 5-dimension tracking”,  N. Cartiglia et al.,  NIMA 924 (2019) 350-354 https://doi.org/10.1016/j.nima.2018.09.157 (pdf) open access



31) “Properties of FBK UFSDs after neutron and proton irradiation up to 6E15 neq/cm2”, S. Mazza et al.,  JINST 15 (2020) 04, T04008,  https://arxiv.org/pdf/1804.05449, (pdf)



30) “Comparison of 35 and 50 micron thin HPK UFSD after neutron irradiation up to 6E15 n/cm2”, Y. Zhao et al.,  NIMA 924 (2019) 387-393 , (pdf)



29) “Radiation resistance LGAD design”,  M. Ferrero et al.,   NIMA 919 (2019) 16–26,  open access, https://www.sciencedirect.com/science/article/pii/S0168900218317741 



28) “Innovative thin Silicon detectors for monitoring of therapeutic proton beams: preliminary beam tests”,  A. Vignati et al.,  JINST 12 C12056 (pdf)



27) “Development of Ultra-Fast Silicon Detectors for 4D Tracking”, A. Staiano et al., JINST_005P_1017 pdf



26) “Laboratory and beam test results of TOFFEE ASIC and Ultra Fast Silicon Detectors”, R. Arcidiacono et al.,  PoS TWEEP 251, DOI: https://doi.org/10.22323/1.313.0028 (pdf)



24) “Tracking in 4 Dimensions”, N. Cartiglia et al.,  PoS, EPS2017, Venice, (pdf)



23)  “Properties of HPK UFSD after neutron irradiation up to 6e15 n/cm2”, Z. Galloway et al., NIMA 924 (2019) 387-393 , (pdf)



22) “4-Dimensional tracking with Ultra-Fast Silicon Detectors” , H. Sadrozinski, A. Seiden, N. Cartiglia,   2018, Rep. Prog. Phys (81) 026101
, https://arxiv.org/abs/1704.08666, 

21) “Test of Ultra Fast Silicon Detector for Picosecond Time measurement with a New Multipurpose Read-out Board”, N. Minafra et al,  NIMA  (2017) , http://dx.doi.org/10.1016/j.nima.2017.04.032 (pdf)



20) “Test of Ultra Fast Silicon Detectors for the TOTEM Upgrade Project”, M. Berretti et al,  JINST 12 (2017) P03024 (pdf)



19) “TOFFEE: a full custom amplifier-comparator chip for timing applications with silicon detectors”, F. Cenna et al.,   JINST 12 (2017)  C03031(pdf)



18)  “Developments and first measurements of Ultra-Fast Silicon Detectors produced at FBK”,  G. Paternoster et al, JINST 12 (2017)  C02077 (pdf)



17) “Temperature dependence of the response of Ultra Fast Silicon Detectors”, R. Mulargia et al,  Pixel 2016, JINST 11 (2016)  C12016 (pdf)



16)“Ultra-Fast Silicon Detectors for 4D tracking”,   V. Sola et al., JINST 12 (2017)  C02072 (pdf)



15)  “The 4D pixel challenge”,  N. Cartiglia et al, Pixel 2016 JINST 11 (2016)  C12016 (pdf)



14) “A new timing detector for the CT-PPS project”, R. Arcidiacono, on behalf of the CMS Collaboration, NIMA 845 (2017) 16-19 (pdf)



13)  “Beam test results of a 16 ps timing system based on ultra-fast silicon detectors”,  N. Cartiglia et al,  NIMA 850 (2017) 83 - 88, (pdf) open access,

12) “Signal formation in irradiated silicon detectors”, B. Baldassarri et al., NIMA 845 (2017) 20 - 23 (pdf)



11)  “Tracking in 4 Dimensions”,  N. Cartiglia et al, NIMA 845 (2017) 47 - 51 (pdf) open access

, https://www.sciencedirect.com/science/article/pii/S0168900216304715 

10) “Ultra-fast silicon detectors (UFSD)", H.F.-W Sadrozinski et al.,  NIMA 831 (2016) 18-23 (pdf)



9) “Design Optimization of Ultra-Fast Silicon Detector”, N. Cartiglia et al, NIMA 796 (2015) 141-148 (pdf)



8)  "Weightfield2: a fast simulator for silicon and diamond solid state detector”, F. Cenna et al., NIMA 796 (2015) 149-153 (pdf)


7) “Design and TCAD simulation of double-sided pixelated low gain avalanche detectors”, G-F Dalla Betta et al., NIMA 796 (2015) 54-157 (pdf)



6)  “Timing Capabilities of Ultra-Fast Silicon Detectors”, N. Cartiglia et al., doi:10.5506/APhysPolBSupp.7.657  (pdf)



5) “Performance of Ultra-Fast Silicon Detectors”, N. Cartiglia, et al., JINST 9 (2014) C02001 (pdf)



4)  “Sensors for ultra-fast silicon detectors”, H.F-W. Sadrozinski et al., NIMA 765 (2014) 7-11 (pdf)


3) “Ultra-fast silicon detectors”, H.F-W. Sadrozinski, et al., NIMA 730 (2013) 226-231 (pdf)



2) “Pulse shape of silicon strip detectors as a diagnostic tool”,  Gadomski S. et al., NIMA 326 (1993), 239-242



1) “Measurement of Interstrip and coupling capacitance of Silicon Microstrip Detectors”, E. Barberis, et al.,  DOI:10.1109/NSSMIC.1992.301193 IEEE 1992 scipp-92-14.pdf


An introduction to Ultra-Fast Silicon Detector

ISBN 9780367646295

Published July 8, 2021 by CRC Press

196 Pages 138 B/W Illustrations