Timing detectors with SiPM read-out for the MUSE experiment at PSI

T. Rostomyan; E. Cline; I. Lavrukhin; H. Atac; A. Atencio; J. C. Bernauer; W. J. Briscoe; D. Cohen; E. O. Cohen; C. Collicott; K. Deiters; S. Dogra; E. Downie; W. Erni; I. P. Fernando; A. Flannery; T. Gautam; D. Ghosal; R. Gilman; A. Golossanov; J. Hirschman; M. Kim; M. Kohl; B. Krusche; L. Li; W. Lin; A. Liyanage; W. Lorenzon; P. Mohanmurthy; J. Nazeer; P. Or; T. Patel; E. Piasetzky; N. Pilip; H. Reid; P. E. Reimer; G. Ron; E. Rooney; Y. Shamai; P. Solazzo; S. Strauch; D. Vidne; N. Wuerfel

doi:10.1016/j.nima.2020.164801

Timing detectors with SiPM read-out for the MUSE experiment at PSI

T. Rostomyan
, E. Cline
, I. Lavrukhin
, H. Atac
, A. Atencio
, J. C. Bernauer
, W. J. Briscoe
, D. Cohen
, E. O. Cohen
, C. Collicott
, K. Deiters
, S. Dogra
, E. Downie
, W. Erni
, I. P. Fernando
, A. Flannery
, T. Gautam
, D. Ghosal
, R. Gilman
, A. Golossanov

J. Hirschman, M. Kim, M. Kohl, B. Krusche, L. Li, W. Lin, A. Liyanage, W. Lorenzon, P. Mohanmurthy, J. Nazeer, P. Or, T. Patel, E. Piasetzky, N. Pilip, H. Reid, P. E. Reimer, G. Ron, E. Rooney, Y. Shamai, P. Solazzo, S. Strauch, D. Vidne, N. Wuerfel

Physics and Astronomy

Rutgers - The State University of New Jersey, New Brunswick
Paul Scherrer Institute
Stony Brook University
George Washington University
University of Michigan, Ann Arbor
Temple University
Hebrew University of Jerusalem
Tel Aviv University
University of Basel
Hampton University
University of South Carolina
Massachusetts Institute of Technology
Argonne National Laboratory

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

The Muon Scattering Experiment at the Paul Scherrer Institute uses a mixed beam of electrons, muons, and pions, necessitating precise timing to identify the beam particles and reactions they cause. We describe the design and performance of three timing detectors using plastic scintillator read out with silicon photomultipliers that have been built for the experiment. The Beam Hodoscope, upstream of the scattering target, counts the beam flux and precisely times beam particles both to identify species and provide a starting time for time-of-flight measurements. The Beam Monitor, downstream of the scattering target, counts the unscattered beam flux, helps identify background in scattering events, and precisely times beam particles for time-of-flight measurements. The Beam Focus Monitor, mounted on the target ladder under the liquid hydrogen target inside the target vacuum chamber, is used in dedicated runs to sample the beam spot at three points near the target center, where the beam should be focused.

Original language	English
Article number	164801
Journal	Nuclear Inst. and Methods in Physics Research, A
Volume	986
DOIs	https://doi.org/10.1016/j.nima.2020.164801
State	Published - Jan 11 2021

Keywords

MUSE
Muon
Picosecond timing
Plastic scintillators
Proton radius puzzle
SiPM/MPPC
Two photon exchange

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10.1016/j.nima.2020.164801

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Rostomyan, T., Cline, E., Lavrukhin, I., Atac, H., Atencio, A., Bernauer, J. C., Briscoe, W. J., Cohen, D., Cohen, E. O., Collicott, C., Deiters, K., Dogra, S., Downie, E., Erni, W., Fernando, I. P., Flannery, A., Gautam, T., Ghosal, D., Gilman, R., ... Wuerfel, N. (2021). Timing detectors with SiPM read-out for the MUSE experiment at PSI. Nuclear Inst. and Methods in Physics Research, A, 986, Article 164801. https://doi.org/10.1016/j.nima.2020.164801

@article{f932aeef7cd64527801e86d3de436e20,

title = "Timing detectors with SiPM read-out for the MUSE experiment at PSI",

abstract = "The Muon Scattering Experiment at the Paul Scherrer Institute uses a mixed beam of electrons, muons, and pions, necessitating precise timing to identify the beam particles and reactions they cause. We describe the design and performance of three timing detectors using plastic scintillator read out with silicon photomultipliers that have been built for the experiment. The Beam Hodoscope, upstream of the scattering target, counts the beam flux and precisely times beam particles both to identify species and provide a starting time for time-of-flight measurements. The Beam Monitor, downstream of the scattering target, counts the unscattered beam flux, helps identify background in scattering events, and precisely times beam particles for time-of-flight measurements. The Beam Focus Monitor, mounted on the target ladder under the liquid hydrogen target inside the target vacuum chamber, is used in dedicated runs to sample the beam spot at three points near the target center, where the beam should be focused.",

keywords = "MUSE, Muon, Picosecond timing, Plastic scintillators, Proton radius puzzle, SiPM/MPPC, Two photon exchange",

author = "T. Rostomyan and E. Cline and I. Lavrukhin and H. Atac and A. Atencio and Bernauer, \{J. C.\} and Briscoe, \{W. J.\} and D. Cohen and Cohen, \{E. O.\} and C. Collicott and K. Deiters and S. Dogra and E. Downie and W. Erni and Fernando, \{I. P.\} and A. Flannery and T. Gautam and D. Ghosal and R. Gilman and A. Golossanov and J. Hirschman and M. Kim and M. Kohl and B. Krusche and L. Li and W. Lin and A. Liyanage and W. Lorenzon and P. Mohanmurthy and J. Nazeer and P. Or and T. Patel and E. Piasetzky and N. Pilip and H. Reid and Reimer, \{P. E.\} and G. Ron and E. Rooney and Y. Shamai and P. Solazzo and S. Strauch and D. Vidne and N. Wuerfel",

note = "Publisher Copyright: {\textcopyright} 2020 The Author(s)",

year = "2021",

month = jan,

day = "11",

doi = "10.1016/j.nima.2020.164801",

language = "English",

volume = "986",

journal = "Nuclear Inst. and Methods in Physics Research, A",

issn = "0168-9002",

}

Rostomyan, T, Cline, E, Lavrukhin, I, Atac, H, Atencio, A, Bernauer, JC, Briscoe, WJ, Cohen, D, Cohen, EO, Collicott, C, Deiters, K, Dogra, S, Downie, E, Erni, W, Fernando, IP, Flannery, A, Gautam, T, Ghosal, D, Gilman, R, Golossanov, A, Hirschman, J, Kim, M, Kohl, M, Krusche, B, Li, L, Lin, W, Liyanage, A, Lorenzon, W, Mohanmurthy, P, Nazeer, J, Or, P, Patel, T, Piasetzky, E, Pilip, N, Reid, H, Reimer, PE, Ron, G, Rooney, E, Shamai, Y, Solazzo, P, Strauch, S, Vidne, D & Wuerfel, N 2021, 'Timing detectors with SiPM read-out for the MUSE experiment at PSI', Nuclear Inst. and Methods in Physics Research, A, vol. 986, 164801. https://doi.org/10.1016/j.nima.2020.164801

TY - JOUR

T1 - Timing detectors with SiPM read-out for the MUSE experiment at PSI

AU - Rostomyan, T.

AU - Cline, E.

AU - Lavrukhin, I.

AU - Atac, H.

AU - Atencio, A.

AU - Bernauer, J. C.

AU - Briscoe, W. J.

AU - Cohen, D.

AU - Cohen, E. O.

AU - Collicott, C.

AU - Deiters, K.

AU - Dogra, S.

AU - Downie, E.

AU - Erni, W.

AU - Fernando, I. P.

AU - Flannery, A.

AU - Gautam, T.

AU - Ghosal, D.

AU - Gilman, R.

AU - Golossanov, A.

AU - Hirschman, J.

AU - Kim, M.

AU - Kohl, M.

AU - Krusche, B.

AU - Li, L.

AU - Lin, W.

AU - Liyanage, A.

AU - Lorenzon, W.

AU - Mohanmurthy, P.

AU - Nazeer, J.

AU - Or, P.

AU - Patel, T.

AU - Piasetzky, E.

AU - Pilip, N.

AU - Reid, H.

AU - Reimer, P. E.

AU - Ron, G.

AU - Rooney, E.

AU - Shamai, Y.

AU - Solazzo, P.

AU - Strauch, S.

AU - Vidne, D.

AU - Wuerfel, N.

PY - 2021/1/11

Y1 - 2021/1/11

N2 - The Muon Scattering Experiment at the Paul Scherrer Institute uses a mixed beam of electrons, muons, and pions, necessitating precise timing to identify the beam particles and reactions they cause. We describe the design and performance of three timing detectors using plastic scintillator read out with silicon photomultipliers that have been built for the experiment. The Beam Hodoscope, upstream of the scattering target, counts the beam flux and precisely times beam particles both to identify species and provide a starting time for time-of-flight measurements. The Beam Monitor, downstream of the scattering target, counts the unscattered beam flux, helps identify background in scattering events, and precisely times beam particles for time-of-flight measurements. The Beam Focus Monitor, mounted on the target ladder under the liquid hydrogen target inside the target vacuum chamber, is used in dedicated runs to sample the beam spot at three points near the target center, where the beam should be focused.

AB - The Muon Scattering Experiment at the Paul Scherrer Institute uses a mixed beam of electrons, muons, and pions, necessitating precise timing to identify the beam particles and reactions they cause. We describe the design and performance of three timing detectors using plastic scintillator read out with silicon photomultipliers that have been built for the experiment. The Beam Hodoscope, upstream of the scattering target, counts the beam flux and precisely times beam particles both to identify species and provide a starting time for time-of-flight measurements. The Beam Monitor, downstream of the scattering target, counts the unscattered beam flux, helps identify background in scattering events, and precisely times beam particles for time-of-flight measurements. The Beam Focus Monitor, mounted on the target ladder under the liquid hydrogen target inside the target vacuum chamber, is used in dedicated runs to sample the beam spot at three points near the target center, where the beam should be focused.

KW - MUSE

KW - Muon

KW - Picosecond timing

KW - Plastic scintillators

KW - Proton radius puzzle

KW - SiPM/MPPC

KW - Two photon exchange

UR - https://www.scopus.com/pages/publications/85094160439

U2 - 10.1016/j.nima.2020.164801

DO - 10.1016/j.nima.2020.164801

M3 - Article

AN - SCOPUS:85094160439

SN - 0168-9002

VL - 986

JO - Nuclear Inst. and Methods in Physics Research, A

JF - Nuclear Inst. and Methods in Physics Research, A

M1 - 164801

ER -

Timing detectors with SiPM read-out for the MUSE experiment at PSI

Abstract

Keywords

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