Fiber Bragg Grating (FBG) sensors as flatness and mechanical stretching sensors

D. Abbaneo; M. Abbas; M. Abbrescia; A. A. Abdelalim; M. Abi Akl; O. Aboamer; D. Acosta; A. Ahmad; W. Ahmed; W. Ahmed; A. Aleksandrov; R. Aly; P. Altieri; C. Asawatangtrakuldee; P. Aspell; Y. Assran; I. Awan; S. Bally; Y. Ban; S. Banerjee; V. Barashko; P. Barria; G. Bencze; N. Beni; L. Benussi; V. Bhopatkar; S. Bianco; J. Bos; O. Bouhali; A. Braghieri; S. Braibant; S. Buontempo; C. Calabria; M. Caponero; C. Caputo; F. Cassese; A. Castaneda; S. Cauwenbergh; F. R. Cavallo; A. Celik; M. Choi; S. Choi; J. Christiansen; A. Cimmino; S. Colafranceschi; A. Colaleo; A. Conde Garcia; S. Czellar; M. M. Dabrowski; G. De Lentdecker; R. De Oliveira; G. De Robertis; S. Dildick; B. Dorney; W. Elmetenawee; G. Endroczi; F. Errico; A. Fenyvesi; S. Ferry; I. Furic; P. Giacomelli; J. Gilmore; V. Golovtsov; L. Guiducci; F. Guilloux; A. Gutierrez; R. M. Hadjiiska; A. Hassan; J. Hauser; K. Hoepfner; M. Hohlmann; H. Hoorani; P. Iaydjiev; Y. G. Jeng; T. Kamon; P. Karchin; A. Korytov; S. Krutelyov; A. Kumar; H. Kim; J. Lee; T. Lenzi; L. Litov; F. Loddo; A. Madorsky; T. Maerschalk; M. Maggi; A. Magnani; P. K. Mal; K. Mandal; A. Marchioro; A. Marinov; R. Masod; N. Majumdar; J. A. Merlin; G. Mitselmakher; A. K. Mohanty; S. Mohamed; A. Mohapatra; J. Molnar; S. Muhammad; S. Mukhopadhyay; M. Naimuddin; S. Nuzzo; E. Oliveri; L. M. Pant; P. Paolucci; I. Park; G. Passeggio; L. Passamonti; B. Pavlov; B. Philipps; D. Piccolo; D. Pierluigi; H. Postema; A. Puig Baranac; A. Radi; R. Radogna; G. Raffone; A. Ranieri; G. Rashevski; C. Riccardi; M. Rodozov; A. Rodrigues; L. Ropelewski; S. Roychowdhury; A. Russo; G. Ryu; M. S. Ryu; A. Safonov; S. Salva; G. Saviano; A. Sharma; A. Sharma; R. Sharma; A. H. Shah; M. Shopova; J. Sturdy; G. Sultanov; S. K. Swain; Z. Szillasi; J. Talvitie; A. Tatarinov; T. Tuuva; M. Tytgat; I. Vai; M. Van Stenis; R. Venditti; E. Verhagen; P. Verwilligen; P. Vitulo; S. Volkov; A. Vorobyev; D. Wang; M. Wang; U. Yang; Y. Yang; R. Yonamine; N. Zaganidis; F. Zenoni; A. Zhang

doi:10.1016/j.nima.2016.01.059

Fiber Bragg Grating (FBG) sensors as flatness and mechanical stretching sensors

D. Abbaneo
, M. Abbas
, M. Abbrescia
, A. A. Abdelalim
, M. Abi Akl
, O. Aboamer
, D. Acosta
, A. Ahmad
, W. Ahmed
, W. Ahmed
, A. Aleksandrov
, R. Aly
, P. Altieri
, C. Asawatangtrakuldee
, P. Aspell
, Y. Assran
, I. Awan
, S. Bally
, Y. Ban
, S. Banerjee

V. Barashko, P. Barria, G. Bencze, N. Beni, L. Benussi^*, V. Bhopatkar, S. Bianco, J. Bos, O. Bouhali, A. Braghieri, S. Braibant, S. Buontempo, C. Calabria, M. Caponero, C. Caputo, F. Cassese, A. Castaneda, S. Cauwenbergh, F. R. Cavallo, A. Celik, M. Choi, S. Choi, J. Christiansen, A. Cimmino, S. Colafranceschi, A. Colaleo, A. Conde Garcia, S. Czellar, M. M. Dabrowski, G. De Lentdecker, R. De Oliveira, G. De Robertis, S. Dildick, B. Dorney, W. Elmetenawee, G. Endroczi, F. Errico, A. Fenyvesi, S. Ferry, I. Furic, P. Giacomelli, J. Gilmore, V. Golovtsov, L. Guiducci, F. Guilloux, A. Gutierrez, R. M. Hadjiiska, A. Hassan, J. Hauser, K. Hoepfner, M. Hohlmann, H. Hoorani, P. Iaydjiev, Y. G. Jeng, T. Kamon, P. Karchin, A. Korytov, S. Krutelyov, A. Kumar, H. Kim, J. Lee, T. Lenzi, L. Litov, F. Loddo, A. Madorsky, T. Maerschalk, M. Maggi, A. Magnani, P. K. Mal, K. Mandal, A. Marchioro, A. Marinov, R. Masod, N. Majumdar, J. A. Merlin, G. Mitselmakher, A. K. Mohanty, S. Mohamed, A. Mohapatra, J. Molnar, S. Muhammad, S. Mukhopadhyay, M. Naimuddin, S. Nuzzo, E. Oliveri, L. M. Pant, P. Paolucci, I. Park, G. Passeggio, L. Passamonti, B. Pavlov, B. Philipps, D. Piccolo, D. Pierluigi, H. Postema, A. Puig Baranac, A. Radi, R. Radogna, G. Raffone, A. Ranieri, G. Rashevski, C. Riccardi, M. Rodozov, A. Rodrigues, L. Ropelewski, S. Roychowdhury, A. Russo, G. Ryu, M. S. Ryu, A. Safonov, S. Salva, G. Saviano, A. Sharma, A. Sharma, R. Sharma, A. H. Shah, M. Shopova, J. Sturdy, G. Sultanov, S. K. Swain, Z. Szillasi, J. Talvitie, A. Tatarinov, T. Tuuva, M. Tytgat, I. Vai, M. Van Stenis, R. Venditti, E. Verhagen, P. Verwilligen, P. Vitulo, S. Volkov, A. Vorobyev, D. Wang, M. Wang, U. Yang, Y. Yang, R. Yonamine, N. Zaganidis, F. Zenoni, A. Zhang

^*Corresponding author for this work

CERN
University of Bari
Helwan University
Texas A&M University at Qatar
Academy of Scientific Research and Technology
University of Florida
Quaid-I-Azam University
Bulgarian Academy of Sciences
Peking University
Saha Institute of Nuclear Physics
Université libre de Bruxelles
Hungarian Academy of Sciences
National Institute for Nuclear Physics
Florida Institute of Technology
University of Pavia
University of Bologna
Ghent University
Texas A&M University
University of Seoul
Korea University
RAS - Saint Petersburg Nuclear Physics Institute
CEA Saclay
Wayne State University
University of California at Los Angeles
RWTH Aachen University
University of Delhi
Sofia University St. Kliment Ohridski
National Institute of Science Education and Research
Institut Pluridisciplinaire - Hubert Curien (IPHC)
Bhabha Atomic Research Centre
Lappeenranta-Lahti University of Technology
Seoul National University

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

1 Citation (Scopus)

Abstract

A novel approach which uses Fiber Bragg Grating (FBG) sensors has been utilized to assess and monitor the flatness of Gaseous Electron Multipliers (GEM) foils. The setup layout and preliminary results are presented.

Original language	English
Pages (from-to)	493-495
Number of pages	3
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	824
DOIs	https://doi.org/10.1016/j.nima.2016.01.059
Publication status	Published - 11 Jul 2016
Externally published	Yes

Keywords

FBG sensors
Foils planarity
Gas detectors
Mechanical stretching
Triple-GEM detector

Access to Document

10.1016/j.nima.2016.01.059

Cite this

Abbaneo, D., Abbas, M., Abbrescia, M., Abdelalim, A. A., Abi Akl, M., Aboamer, O., Acosta, D., Ahmad, A., Ahmed, W., Ahmed, W., Aleksandrov, A., Aly, R., Altieri, P., Asawatangtrakuldee, C., Aspell, P., Assran, Y., Awan, I., Bally, S., Ban, Y., ... Zhang, A. (2016). Fiber Bragg Grating (FBG) sensors as flatness and mechanical stretching sensors. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 824, 493-495. https://doi.org/10.1016/j.nima.2016.01.059

@article{499079ae606448e78ef6fe4c2cb25a92,

title = "Fiber Bragg Grating (FBG) sensors as flatness and mechanical stretching sensors",

abstract = "A novel approach which uses Fiber Bragg Grating (FBG) sensors has been utilized to assess and monitor the flatness of Gaseous Electron Multipliers (GEM) foils. The setup layout and preliminary results are presented.",

keywords = "FBG sensors, Foils planarity, Gas detectors, Mechanical stretching, Triple-GEM detector",

author = "D. Abbaneo and M. Abbas and M. Abbrescia and Abdelalim, \{A. A.\} and \{Abi Akl\}, M. and O. Aboamer and D. Acosta and A. Ahmad and W. Ahmed and W. Ahmed and A. Aleksandrov and R. Aly and P. Altieri and C. Asawatangtrakuldee and P. Aspell and Y. Assran and I. Awan and S. Bally and Y. Ban and S. Banerjee and V. Barashko and P. Barria and G. Bencze and N. Beni and L. Benussi and V. Bhopatkar and S. Bianco and J. Bos and O. Bouhali and A. Braghieri and S. Braibant and S. Buontempo and C. Calabria and M. Caponero and C. Caputo and F. Cassese and A. Castaneda and S. Cauwenbergh and Cavallo, \{F. R.\} and A. Celik and M. Choi and S. Choi and J. Christiansen and A. Cimmino and S. Colafranceschi and A. Colaleo and \{Conde Garcia\}, A. and S. Czellar and Dabrowski, \{M. M.\} and \{De Lentdecker\}, G. and \{De Oliveira\}, R. and \{De Robertis\}, G. and S. Dildick and B. Dorney and W. Elmetenawee and G. Endroczi and F. Errico and A. Fenyvesi and S. Ferry and I. Furic and P. Giacomelli and J. Gilmore and V. Golovtsov and L. Guiducci and F. Guilloux and A. Gutierrez and Hadjiiska, \{R. M.\} and A. Hassan and J. Hauser and K. Hoepfner and M. Hohlmann and H. Hoorani and P. Iaydjiev and Jeng, \{Y. G.\} and T. Kamon and P. Karchin and A. Korytov and S. Krutelyov and A. Kumar and H. Kim and J. Lee and T. Lenzi and L. Litov and F. Loddo and A. Madorsky and T. Maerschalk and M. Maggi and A. Magnani and Mal, \{P. K.\} and K. Mandal and A. Marchioro and A. Marinov and R. Masod and N. Majumdar and Merlin, \{J. A.\} and G. Mitselmakher and Mohanty, \{A. K.\} and S. Mohamed and A. Mohapatra and J. Molnar and S. Muhammad and S. Mukhopadhyay and M. Naimuddin and S. Nuzzo and E. Oliveri and Pant, \{L. M.\} and P. Paolucci and I. Park and G. Passeggio and L. Passamonti and B. Pavlov and B. Philipps and D. Piccolo and D. Pierluigi and H. Postema and \{Puig Baranac\}, A. and A. Radi and R. Radogna and G. Raffone and A. Ranieri and G. Rashevski and C. Riccardi and M. Rodozov and A. Rodrigues and L. Ropelewski and S. Roychowdhury and A. Russo and G. Ryu and Ryu, \{M. S.\} and A. Safonov and S. Salva and G. Saviano and A. Sharma and A. Sharma and R. Sharma and Shah, \{A. H.\} and M. Shopova and J. Sturdy and G. Sultanov and Swain, \{S. K.\} and Z. Szillasi and J. Talvitie and A. Tatarinov and T. Tuuva and M. Tytgat and I. Vai and \{Van Stenis\}, M. and R. Venditti and E. Verhagen and P. Verwilligen and P. Vitulo and S. Volkov and A. Vorobyev and D. Wang and M. Wang and U. Yang and Y. Yang and R. Yonamine and N. Zaganidis and F. Zenoni and A. Zhang",

note = "Publisher Copyright: {\textcopyright} 2016 Elsevier B.V.",

year = "2016",

month = jul,

day = "11",

doi = "10.1016/j.nima.2016.01.059",

language = "English",

volume = "824",

pages = "493--495",

journal = "Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment",

issn = "0168-9002",

publisher = "Elsevier B.V.",

}

Abbaneo, D, Abbas, M, Abbrescia, M, Abdelalim, AA, Abi Akl, M, Aboamer, O, Acosta, D, Ahmad, A, Ahmed, W, Ahmed, W, Aleksandrov, A, Aly, R, Altieri, P, Asawatangtrakuldee, C, Aspell, P, Assran, Y, Awan, I, Bally, S, Ban, Y, Banerjee, S, Barashko, V, Barria, P, Bencze, G, Beni, N, Benussi, L, Bhopatkar, V, Bianco, S, Bos, J, Bouhali, O, Braghieri, A, Braibant, S, Buontempo, S, Calabria, C, Caponero, M, Caputo, C, Cassese, F, Castaneda, A, Cauwenbergh, S, Cavallo, FR, Celik, A, Choi, M, Choi, S, Christiansen, J, Cimmino, A, Colafranceschi, S, Colaleo, A, Conde Garcia, A, Czellar, S, Dabrowski, MM, De Lentdecker, G, De Oliveira, R, De Robertis, G, Dildick, S, Dorney, B, Elmetenawee, W, Endroczi, G, Errico, F, Fenyvesi, A, Ferry, S, Furic, I, Giacomelli, P, Gilmore, J, Golovtsov, V, Guiducci, L, Guilloux, F, Gutierrez, A, Hadjiiska, RM, Hassan, A, Hauser, J, Hoepfner, K, Hohlmann, M, Hoorani, H, Iaydjiev, P, Jeng, YG, Kamon, T, Karchin, P, Korytov, A, Krutelyov, S, Kumar, A, Kim, H, Lee, J, Lenzi, T, Litov, L, Loddo, F, Madorsky, A, Maerschalk, T, Maggi, M, Magnani, A, Mal, PK, Mandal, K, Marchioro, A, Marinov, A, Masod, R, Majumdar, N, Merlin, JA, Mitselmakher, G, Mohanty, AK, Mohamed, S, Mohapatra, A, Molnar, J, Muhammad, S, Mukhopadhyay, S, Naimuddin, M, Nuzzo, S, Oliveri, E, Pant, LM, Paolucci, P, Park, I, Passeggio, G, Passamonti, L, Pavlov, B, Philipps, B, Piccolo, D, Pierluigi, D, Postema, H, Puig Baranac, A, Radi, A, Radogna, R, Raffone, G, Ranieri, A, Rashevski, G, Riccardi, C, Rodozov, M, Rodrigues, A, Ropelewski, L, Roychowdhury, S, Russo, A, Ryu, G, Ryu, MS, Safonov, A, Salva, S, Saviano, G, Sharma, A, Sharma, A, Sharma, R, Shah, AH, Shopova, M, Sturdy, J, Sultanov, G, Swain, SK, Szillasi, Z, Talvitie, J, Tatarinov, A, Tuuva, T, Tytgat, M, Vai, I, Van Stenis, M, Venditti, R, Verhagen, E, Verwilligen, P, Vitulo, P, Volkov, S, Vorobyev, A, Wang, D, Wang, M, Yang, U, Yang, Y, Yonamine, R, Zaganidis, N, Zenoni, F & Zhang, A 2016, 'Fiber Bragg Grating (FBG) sensors as flatness and mechanical stretching sensors', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 824, pp. 493-495. https://doi.org/10.1016/j.nima.2016.01.059

TY - JOUR

T1 - Fiber Bragg Grating (FBG) sensors as flatness and mechanical stretching sensors

AU - Abbaneo, D.

AU - Abbas, M.

AU - Abbrescia, M.

AU - Abdelalim, A. A.

AU - Abi Akl, M.

AU - Aboamer, O.

AU - Acosta, D.

AU - Ahmad, A.

AU - Ahmed, W.

AU - Aleksandrov, A.

AU - Aly, R.

AU - Altieri, P.

AU - Asawatangtrakuldee, C.

AU - Aspell, P.

AU - Assran, Y.

AU - Awan, I.

AU - Bally, S.

AU - Ban, Y.

AU - Banerjee, S.

AU - Barashko, V.

AU - Barria, P.

AU - Bencze, G.

AU - Beni, N.

AU - Benussi, L.

AU - Bhopatkar, V.

AU - Bianco, S.

AU - Bos, J.

AU - Bouhali, O.

AU - Braghieri, A.

AU - Braibant, S.

AU - Buontempo, S.

AU - Calabria, C.

AU - Caponero, M.

AU - Caputo, C.

AU - Cassese, F.

AU - Castaneda, A.

AU - Cauwenbergh, S.

AU - Cavallo, F. R.

AU - Celik, A.

AU - Choi, M.

AU - Choi, S.

AU - Christiansen, J.

AU - Cimmino, A.

AU - Colafranceschi, S.

AU - Colaleo, A.

AU - Conde Garcia, A.

AU - Czellar, S.

AU - Dabrowski, M. M.

AU - De Lentdecker, G.

AU - De Oliveira, R.

AU - De Robertis, G.

AU - Dildick, S.

AU - Dorney, B.

AU - Elmetenawee, W.

AU - Endroczi, G.

AU - Errico, F.

AU - Fenyvesi, A.

AU - Ferry, S.

AU - Furic, I.

AU - Giacomelli, P.

AU - Gilmore, J.

AU - Golovtsov, V.

AU - Guiducci, L.

AU - Guilloux, F.

AU - Gutierrez, A.

AU - Hadjiiska, R. M.

AU - Hassan, A.

AU - Hauser, J.

AU - Hoepfner, K.

AU - Hohlmann, M.

AU - Hoorani, H.

AU - Iaydjiev, P.

AU - Jeng, Y. G.

AU - Kamon, T.

AU - Karchin, P.

AU - Korytov, A.

AU - Krutelyov, S.

AU - Kumar, A.

AU - Kim, H.

AU - Lee, J.

AU - Lenzi, T.

AU - Litov, L.

AU - Loddo, F.

AU - Madorsky, A.

AU - Maerschalk, T.

AU - Maggi, M.

AU - Magnani, A.

AU - Mal, P. K.

AU - Mandal, K.

AU - Marchioro, A.

AU - Marinov, A.

AU - Masod, R.

AU - Majumdar, N.

AU - Merlin, J. A.

AU - Mitselmakher, G.

AU - Mohanty, A. K.

AU - Mohamed, S.

AU - Mohapatra, A.

AU - Molnar, J.

AU - Muhammad, S.

AU - Mukhopadhyay, S.

AU - Naimuddin, M.

AU - Nuzzo, S.

AU - Oliveri, E.

AU - Pant, L. M.

AU - Paolucci, P.

AU - Park, I.

AU - Passeggio, G.

AU - Passamonti, L.

AU - Pavlov, B.

AU - Philipps, B.

AU - Piccolo, D.

AU - Pierluigi, D.

AU - Postema, H.

AU - Puig Baranac, A.

AU - Radi, A.

AU - Radogna, R.

AU - Raffone, G.

AU - Ranieri, A.

AU - Rashevski, G.

AU - Riccardi, C.

AU - Rodozov, M.

AU - Rodrigues, A.

AU - Ropelewski, L.

AU - Roychowdhury, S.

AU - Russo, A.

AU - Ryu, G.

AU - Ryu, M. S.

AU - Safonov, A.

AU - Salva, S.

AU - Saviano, G.

AU - Sharma, A.

AU - Sharma, R.

AU - Shah, A. H.

AU - Shopova, M.

AU - Sturdy, J.

AU - Sultanov, G.

AU - Swain, S. K.

AU - Szillasi, Z.

AU - Talvitie, J.

AU - Tatarinov, A.

AU - Tuuva, T.

AU - Tytgat, M.

AU - Vai, I.

AU - Van Stenis, M.

AU - Venditti, R.

AU - Verhagen, E.

AU - Verwilligen, P.

AU - Vitulo, P.

AU - Volkov, S.

AU - Vorobyev, A.

AU - Wang, D.

AU - Wang, M.

AU - Yang, U.

AU - Yang, Y.

AU - Yonamine, R.

AU - Zaganidis, N.

AU - Zenoni, F.

AU - Zhang, A.

PY - 2016/7/11

Y1 - 2016/7/11

N2 - A novel approach which uses Fiber Bragg Grating (FBG) sensors has been utilized to assess and monitor the flatness of Gaseous Electron Multipliers (GEM) foils. The setup layout and preliminary results are presented.

AB - A novel approach which uses Fiber Bragg Grating (FBG) sensors has been utilized to assess and monitor the flatness of Gaseous Electron Multipliers (GEM) foils. The setup layout and preliminary results are presented.

KW - FBG sensors

KW - Foils planarity

KW - Gas detectors

KW - Mechanical stretching

KW - Triple-GEM detector

UR - https://www.scopus.com/pages/publications/84957696363

U2 - 10.1016/j.nima.2016.01.059

DO - 10.1016/j.nima.2016.01.059

M3 - Article

AN - SCOPUS:84957696363

SN - 0168-9002

VL - 824

SP - 493

EP - 495

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

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

ER -

Fiber Bragg Grating (FBG) sensors as flatness and mechanical stretching sensors

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Keywords

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