Charged particle timing at sub-25 picosecond precision

The PICOSEC detection concept

F.J. Iguaz, J. Bortfeldt, Florian M. Brunbauer, C. David, D. Desforge, G. Fanourakis, J. Franchi, M. Gallinaro, F. Garcia, I. Giomataris, D. González-Díaz, T. Gustavsson, C. Guyot, M. Kebbiri, P. Legou, J. Liu, Michael Lupberger, O. Maillard, I. Manthos, H. Muller & 21 andra V. Niaouris, E. Oliveri, Th. Papaevangelou, K. Paraschou, M. Pomorski, B. Qi, F. Resnati, L. Ropelewski, D. Sampsonidis, Thomas Schneider, P. Schwemling, L. Sohl, M. van Stenis, Patrik Thuiner, Y. Tsipolitis, S.E. Tzamarias, R. Veenhof, X. Wang, S. White, Z. Zhang, Y. Zhou

Forskningsoutput: TidskriftsbidragÖversiktsartikelVetenskapligPeer review

Sammanfattning

The PICOSEC detection concept consists in a “two-stage” Micromegas detector coupled to a Cherenkov radiator and equipped with a photocathode. A proof of concept has already been tested: a single-photoelectron response of 76 ps has been measured with a femtosecond UV laser at CEA/IRAMIS, while a time resolution of 24 ps with a mean yield of 10.4 photoelectrons has been measured for 150 GeV muons at the CERN SPS H4 secondary line. This work will present the main results of this prototype and the performance of the different detector configurations tested in 2016-18 beam campaigns: readouts (bulk, resistive, multipad) and photocathodes (metallic+CsI, pure metallic, diamond). Finally, the prospects for building a demonstrator based on PICOSEC detection concept for future experiments will be discussed. In particular, the scaling strategies for a large area coverage with a multichannel readout plane, the R&D on solid converters for building a robust photocathode and the different resistive configurations for a robust readout.
Originalspråkengelska
TidskriftNuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment
Volym936
Sidor (från-till)515-518
Antal sidor4
ISSN0168-9002
DOI
StatusPublicerad - 21 aug 2019
MoE-publikationstypA2 Granska artikel i en vetenskaplig tidskrift

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  • 114 Fysik

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Iguaz, F.J. ; Bortfeldt, J. ; Brunbauer, Florian M. ; David, C. ; Desforge, D. ; Fanourakis, G. ; Franchi, J. ; Gallinaro, M. ; Garcia, F. ; Giomataris, I. ; González-Díaz, D. ; Gustavsson, T. ; Guyot, C. ; Kebbiri, M. ; Legou, P. ; Liu, J. ; Lupberger, Michael ; Maillard, O. ; Manthos, I. ; Muller, H. ; Niaouris, V. ; Oliveri, E. ; Papaevangelou, Th. ; Paraschou, K. ; Pomorski, M. ; Qi, B. ; Resnati, F. ; Ropelewski, L. ; Sampsonidis, D. ; Schneider, Thomas ; Schwemling, P. ; Sohl, L. ; van Stenis, M. ; Thuiner, Patrik ; Tsipolitis, Y. ; Tzamarias, S.E. ; Veenhof, R. ; Wang, X. ; White, S. ; Zhang, Z. ; Zhou, Y. / Charged particle timing at sub-25 picosecond precision : The PICOSEC detection concept. I: Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment. 2019 ; Vol. 936. s. 515-518.
@article{3172ed15c45f476b8591527771740a9c,
title = "Charged particle timing at sub-25 picosecond precision: The PICOSEC detection concept",
abstract = "The PICOSEC detection concept consists in a “two-stage” Micromegas detector coupled to a Cherenkov radiator and equipped with a photocathode. A proof of concept has already been tested: a single-photoelectron response of 76 ps has been measured with a femtosecond UV laser at CEA/IRAMIS, while a time resolution of 24 ps with a mean yield of 10.4 photoelectrons has been measured for 150 GeV muons at the CERN SPS H4 secondary line. This work will present the main results of this prototype and the performance of the different detector configurations tested in 2016-18 beam campaigns: readouts (bulk, resistive, multipad) and photocathodes (metallic+CsI, pure metallic, diamond). Finally, the prospects for building a demonstrator based on PICOSEC detection concept for future experiments will be discussed. In particular, the scaling strategies for a large area coverage with a multichannel readout plane, the R&D on solid converters for building a robust photocathode and the different resistive configurations for a robust readout.",
keywords = "114 Physical sciences, Picosecond timing, MPGD, Micromegas, Photocathodes, Timing algorithms",
author = "F.J. Iguaz and J. Bortfeldt and Brunbauer, {Florian M.} and C. David and D. Desforge and G. Fanourakis and J. Franchi and M. Gallinaro and F. Garcia and I. Giomataris and D. Gonz{\'a}lez-D{\'i}az and T. Gustavsson and C. Guyot and M. Kebbiri and P. Legou and J. Liu and Michael Lupberger and O. Maillard and I. Manthos and H. Muller and V. Niaouris and E. Oliveri and Th. Papaevangelou and K. Paraschou and M. Pomorski and B. Qi and F. Resnati and L. Ropelewski and D. Sampsonidis and Thomas Schneider and P. Schwemling and L. Sohl and {van Stenis}, M. and Patrik Thuiner and Y. Tsipolitis and S.E. Tzamarias and R. Veenhof and X. Wang and S. White and Z. Zhang and Y. Zhou",
year = "2019",
month = "8",
day = "21",
doi = "10.1016/j.nima.2018.08.070",
language = "English",
volume = "936",
pages = "515--518",
journal = "Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment",
issn = "0168-9002",
publisher = "Elsevier Scientific Publ. Co",

}

Iguaz, FJ, Bortfeldt, J, Brunbauer, FM, David, C, Desforge, D, Fanourakis, G, Franchi, J, Gallinaro, M, Garcia, F, Giomataris, I, González-Díaz, D, Gustavsson, T, Guyot, C, Kebbiri, M, Legou, P, Liu, J, Lupberger, M, Maillard, O, Manthos, I, Muller, H, Niaouris, V, Oliveri, E, Papaevangelou, T, Paraschou, K, Pomorski, M, Qi, B, Resnati, F, Ropelewski, L, Sampsonidis, D, Schneider, T, Schwemling, P, Sohl, L, van Stenis, M, Thuiner, P, Tsipolitis, Y, Tzamarias, SE, Veenhof, R, Wang, X, White, S, Zhang, Z & Zhou, Y 2019, 'Charged particle timing at sub-25 picosecond precision: The PICOSEC detection concept', Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment, vol. 936, s. 515-518. https://doi.org/10.1016/j.nima.2018.08.070

Charged particle timing at sub-25 picosecond precision : The PICOSEC detection concept. / Iguaz, F.J.; Bortfeldt, J.; Brunbauer, Florian M.; David, C.; Desforge, D.; Fanourakis, G.; Franchi, J.; Gallinaro, M.; Garcia, F.; Giomataris, I.; González-Díaz, D.; Gustavsson, T.; Guyot, C.; Kebbiri, M.; Legou, P.; Liu, J.; Lupberger, Michael; Maillard, O.; Manthos, I.; Muller, H.; Niaouris, V.; Oliveri, E.; Papaevangelou, Th.; Paraschou, K.; Pomorski, M.; Qi, B.; Resnati, F.; Ropelewski, L.; Sampsonidis, D.; Schneider, Thomas; Schwemling, P.; Sohl, L.; van Stenis, M.; Thuiner, Patrik; Tsipolitis, Y.; Tzamarias, S.E.; Veenhof, R.; Wang, X.; White, S.; Zhang, Z.; Zhou, Y.

I: Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment, Vol. 936, 21.08.2019, s. 515-518.

Forskningsoutput: TidskriftsbidragÖversiktsartikelVetenskapligPeer review

TY - JOUR

T1 - Charged particle timing at sub-25 picosecond precision

T2 - The PICOSEC detection concept

AU - Iguaz, F.J.

AU - Bortfeldt, J.

AU - Brunbauer, Florian M.

AU - David, C.

AU - Desforge, D.

AU - Fanourakis, G.

AU - Franchi, J.

AU - Gallinaro, M.

AU - Garcia, F.

AU - Giomataris, I.

AU - González-Díaz, D.

AU - Gustavsson, T.

AU - Guyot, C.

AU - Kebbiri, M.

AU - Legou, P.

AU - Liu, J.

AU - Lupberger, Michael

AU - Maillard, O.

AU - Manthos, I.

AU - Muller, H.

AU - Niaouris, V.

AU - Oliveri, E.

AU - Papaevangelou, Th.

AU - Paraschou, K.

AU - Pomorski, M.

AU - Qi, B.

AU - Resnati, F.

AU - Ropelewski, L.

AU - Sampsonidis, D.

AU - Schneider, Thomas

AU - Schwemling, P.

AU - Sohl, L.

AU - van Stenis, M.

AU - Thuiner, Patrik

AU - Tsipolitis, Y.

AU - Tzamarias, S.E.

AU - Veenhof, R.

AU - Wang, X.

AU - White, S.

AU - Zhang, Z.

AU - Zhou, Y.

PY - 2019/8/21

Y1 - 2019/8/21

N2 - The PICOSEC detection concept consists in a “two-stage” Micromegas detector coupled to a Cherenkov radiator and equipped with a photocathode. A proof of concept has already been tested: a single-photoelectron response of 76 ps has been measured with a femtosecond UV laser at CEA/IRAMIS, while a time resolution of 24 ps with a mean yield of 10.4 photoelectrons has been measured for 150 GeV muons at the CERN SPS H4 secondary line. This work will present the main results of this prototype and the performance of the different detector configurations tested in 2016-18 beam campaigns: readouts (bulk, resistive, multipad) and photocathodes (metallic+CsI, pure metallic, diamond). Finally, the prospects for building a demonstrator based on PICOSEC detection concept for future experiments will be discussed. In particular, the scaling strategies for a large area coverage with a multichannel readout plane, the R&D on solid converters for building a robust photocathode and the different resistive configurations for a robust readout.

AB - The PICOSEC detection concept consists in a “two-stage” Micromegas detector coupled to a Cherenkov radiator and equipped with a photocathode. A proof of concept has already been tested: a single-photoelectron response of 76 ps has been measured with a femtosecond UV laser at CEA/IRAMIS, while a time resolution of 24 ps with a mean yield of 10.4 photoelectrons has been measured for 150 GeV muons at the CERN SPS H4 secondary line. This work will present the main results of this prototype and the performance of the different detector configurations tested in 2016-18 beam campaigns: readouts (bulk, resistive, multipad) and photocathodes (metallic+CsI, pure metallic, diamond). Finally, the prospects for building a demonstrator based on PICOSEC detection concept for future experiments will be discussed. In particular, the scaling strategies for a large area coverage with a multichannel readout plane, the R&D on solid converters for building a robust photocathode and the different resistive configurations for a robust readout.

KW - 114 Physical sciences

KW - Picosecond timing

KW - MPGD

KW - Micromegas

KW - Photocathodes

KW - Timing algorithms

U2 - 10.1016/j.nima.2018.08.070

DO - 10.1016/j.nima.2018.08.070

M3 - Review Article

VL - 936

SP - 515

EP - 518

JO - Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment

JF - Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment

SN - 0168-9002

ER -