UFSD Group Selected Conferences 2016 - present


TREDI, Wien, February 2020

  1. 1) N. Cartiglia, Signal formation and designed optimization of Resistive AC-LGAD (RSD)

  2. 2)J. Olave,  FAST: a front-end readout ASIC for picosecond time resolution applications with UFSD

  3. 3)F. Siviero The use of thermal cameras as a diagnostic tool in the qualification of LGAD designs

  4. 4) V. Sola, Silicon Sensors for Extreme Fluences

Hiroshima Conference HSTD12 Hiroshima, December 2019

  1. 5) N. cartiglia, 4D tracking systems at future hadron colliders

  2. 6)R. Arcidiacono, State-of-the-art and evolution of UFSD sensors design at FBK.

IEEE, 2019, Manchester, November 2019

  1. 7) M. Mandurrino

  2. 8) R. Arcidiacono

Vertex 2019, Croatia, October 2019

  1. 9)V. Sola,  Next-Generation Tracking System for Future Hadron Colliders

IPRD19, Siena

  1. 10)M. Costa, Precision Timing with Low Gain Avalanche Detectors in the CMS MTD Endcap Timing Layer

  2. 11)M. Ferrero Evolution of the design of Ultra Fast Silicon to cope with high irradiation fluences and fine segmentation

TREDI, Trento, February 2019

  1. 12) N. Cartiglia, “Particle tracking at fluences between 1-10E16 n/cm2”

  2. 13) R. Arcidiacono “UFSD Silicon detectors for the CMS timing layer”

  3. 14)M. Ferrero, “Studies of the acceptor removal mechanism in UFSD irradiated with protons and neutrons”

  4. 15)V. Sola “Studies of FBK and HPK UFSD sensors”

RD50, CERN, Nov. 2018

  1. 16) M. Tornago “Performances of the third UFSD production at FBK”

  2. 17)M. Ferrero “Development in Radiation hardness study on the third FBK production of UFSD”

  3. 18)N. Cartiglia “Evolution of the working conditions and time resolution of UFSD sensors during the HL-LHC lifetime”

IEEE, 2018, Sydney, November 2018

  1. 19)J. Olave, “Development of front-end readout electronics for high time resolution measurements with UFSD”

  2. 20) F. Fausti, “Characterization of a Silicon detector and front end electronics prototype for single ion discrimination in hadrotherapy”

  3. 21)N. Cartiglia, “Tracking at fluences above 1E16 n/cm2”

Vertex 2018, Chennai, October 2018

  1. 22) A. Staiano,”Fast Timing and 4D tracking with UFSD detectors”

  2. 23) N. Cartiglia, “Particle tracking at fluences above 1E16 n/cm2”

SIF 104 Congresso, September 2018

  1. 24) M. Tornago, Sviluppo di Ultra-Fast Silicon Detectors per il tracciamento in 4D ad HL-LHC: misure di laboratorio e simulazioni numeriche

ICHEP, 2018, Seul, July 2018

  1. 25)V. Sola, “Fast Timing Detectors towards a 4-Dimensional Tracking”

RD50, Hamburg, June 2018

  1. 26) M. Ferrero  "Effects of protons and neutrons irradiations”

  2. 27) N. Cartiglia, “A parametrization of the acceptor removal mechanism”

FEE2018,  Jouvence, May 2019

  1. 28) J. Olave, “CMOS sensors in 110nm”

Picosecond workshop, Torino, May 2018

  1. 29)V. Sola, “ 'Low-Gain Avalanche Diodes for Precision Timing in the CMS Endcap”

  2. 30)N. Cartiglia, “The Weightfield2 simulation program”

TREDI, Munich, February 2018

  1. 31)M. Mandurrino, “Resistive AC-Coupling: a new read-out paradigm in with Ultra-Fast Silicon Detectors

  2. 32)R. Arcidiacono,

  3. 33)N. Cartiglia, “Shot noise in UFSD Sensors”

Hiroshima Conference HSTD11 Okinawa, December 2017

  1. 34) N. Cartiglia, “Tracking in 4- and 5-Dimensions”

  2. 35) V. Sola, “New FBK UFSD production”

IEEE Atlanta, October 2017

  1. 36)F. Fausti, “A high rate silicon detector and front-end electronics prototype

  2. 37)M. Mandurrino,  “Numerical Simulation of Charge Multiplication in UFSD”

  3. 38)M. Ferrero, “Development in the productions of UFSD sensors”

  4. 39)M. Ferrero, “Ultra-Fast Silicon Detectors”, poster (pdf)

IWFLC, October 2017

  1. 40) R. Arcidiacono, “Development of Ultra-Fast Silicon Detectors for 4-D tracking”

PSD17, September 2017

  1. 41) A. Staiano “Tracking in 4-dimensions”

Vertex 2017, September 2017

  1. 42)M . Obertino “Silicon sensor technology with timing”

TWEPP, Santa Cruz, September 2017

  1. 43) R. Arcidiacono, “Beam test results of the TOFFEE chip”

  2. 44) F. Fausti, “The read-out chip for CMS Timing Layer”

EPS, Venice, June 2017:

  1. 45) N. Cartiglia, “Tracking in 4-dimensions”

RD50, Warsaw, June 2017

  1. 46) M. Mandurrino, “TCAD simulation of silicon detectors: A validation tool for the development of LGAD”

  2. 47) V. Sola, :Laboratory measurements and progress in LGAD design”

LHCb upgrade,  La Biodola, May 2016

  1. 48)Obertino, “Properties of UFSD sensors”

TREDI 2017, Trento,  February 2016

  1. 49) N. Cartiglia, “Properties of LGAD”

  2. 50) J. Olave, “The design of the TOFFEE chip”

  3. 51) M. Ferrero, “Measurements on LGAD sensors”

RD50, CERN, November 2016

  1. 52) Mulargia, “Temperature dependence of LGAD response”

  2. 53) Ferrero, “Laboratory measurement of LGAD”

IEEE 2016, Brussels, October 2016

  1. 54)A. Staiano, “Properties of UFSD”

  2. 55)F. Cenna, “The TOFFEE chip”

TWEPP 2016, Karlsuhe

  1. 56)F. Cenna, TOFFEE

Picosecond Workshop, Kansas City, September 2016

  1. 57)N. Cartiglia, “4D tracking”

  2. 58)R. Arcidiacono, “UFSD properties”

PIXEL 2016, Sestri Levante, September 2016

  1. 59)N. Cartiglia, “Tracking in 4 Dimensions”

  2. 60)R. Mulargia, “Ultra Fast Silicon Timing Detectors: Status and future development”

Elba Workshop in FWD physics

  1. 61)V. Sola, “UFSD for CT-PPS tracking”

IPRD16, Siena

  1. 62)V. Sola, “Development of UFSD detectors for 4D tracking”

VCI 2016, Vienna, October 2016

  1. 63)N. Cartiglia, “Tracking in 4D”

  2. 64)R. Arcidiacono, “A new timing detector for the CT-PPS project”

  3. 65)B. Baldassarri, “Temperature dependance of UFSD”

RD50, Torino, June 2016

  1. 66)N. Cartiglia, “Design consideration on thin LGAD sensors”

TREDI 2016, Paris, February 2016

  1. 67)N. Cartiglia, “Tracking in 4 Dimensions”