Construction and response of a highly granular scintillator-based electromagnetic calorimeter

doi:10.1016/j.nima.2018.01.016

Title: Construction and response of a highly granular scintillator-based electromagnetic calorimeter

Abstract

Here, a highly granular electromagnetic calorimeter with scintillator strip readout is being developed for future linear collider experiments. A prototype of 21.5 $X_{0}$ depth and $180 \times 180 {mm}^{2}$ transverse dimensions was constructed, consisting of 2160 individually read out $10 \times 45 \times 3 {mm}^{3}$ scintillator strips. This prototype was tested using electrons of 2–32 $Ge V$ at the Fermilab Test Beam Facility in 2009. Deviations from linear energy response were less than 1.1%, and the intrinsic energy resolution was determined to be $(12.5 \pm 0.1 (stat.) \pm 0.4 (syst.)) % / \sqrt{E [Ge V]} \oplus (1.2 \pm 0.1 {(stat.)}_{- 0.7}^{+ 0.6} (syst.)) %$ , where the uncertainties correspond to statistical and systematic sources, respectively.

Authors:: Repond, J.; Xia, L.; Eigen, G.; Price, T.; Watson, N. K.; Winter, A.; Thomson, M. A.; Cârloganu, C.; Blazey, G. C.; Dyshkant, A.; Francis, K.; Zutshi, V.; Gadow, K.; Göttlicher, P.; Hartbrich, O.; Kotera, K.; Krivan, F.; Krüger, K.; Lu, S.; Lutz, B. more »« less

Publication Date:: 2018-01-11

Research Org.:: Argonne National Lab. (ANL), Argonne, IL (United States)

Sponsoring Org.:: USDOE

Contributing Org.:: The CALICE Collaboration

OSTI Identifier:: 1477880

Grant/Contract Number:: AC02-06CH11357

Resource Type:: Journal Article: Accepted Manuscript

Journal Name:: Nuclear Instruments and Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment

Additional Journal Information:: Journal Volume: 887; Journal ID: ISSN 0168-9002

Publisher:: Elsevier

Country of Publication:: United States

Language:: English

Subject:: 46 INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY; particle flow; electromagnetic calorimeter; scintillator; MPPC; SiPM; granular

Citation Formats


                    Repond, J., Xia, L., Eigen, G., Price, T., Watson, N. K., Winter, A., Thomson, M. A., Cârloganu, C., Blazey, G. C., Dyshkant, A., Francis, K., Zutshi, V., Gadow, K., Göttlicher, P., Hartbrich, O., Kotera, K., Krivan, F., Krüger, K., Lu, S., Lutz, B., Reinecke, M., Sefkow, F., Sudo, Y., Tran, H. L., Kaplan, A., Schultz-Coulon, H. -Ch., Bilki, B., Northacker, D., Onel, Y., Wilson, G. W., Kawagoe, K., Sekiya, I., Suehara, T., Yamashiro, H., Yoshioka, T., Alamillo, E. Calvo, Fouz, M. C., Marin, J., Navarrete, J., Pelayo, J. Puerta, Verdugo, A., Chadeeva, M., Danilov, M., Gabriel, M., Goecke, P., Graf, C., Israeli, Y., Kolk, N. van der, Simon, F., Szalay, M., Windel, H., Bilokin, S., Bonis, J., Pöschl, R., Thiebault, A., Richard, F., Zerwas, D., Balagura, V., Boudry, V., Brient, J. -C., Cornat, R., Cvach, J., Janata, M., Kovalcuk, M., Kvasnicka, J., Polak, I., Smolik, J., Vrba, V., Zalesak, J., Zuklin, J., Choi, W., Kotera, K., Nishiyama, M., Sakuma, T., Takeshita, T., Tozuka, S., Tsubokawa, T., Uozumi, S., Jeans, D., Ootani, W., Liu, L., Chang, S., Khan, A., Kim, D. H., Kong, D. J., Oh, Y. D., Ikuno, T., Sudo, Y., Takahashi, Y., and Götze, M. Construction and response of a highly granular scintillator-based electromagnetic calorimeter.  United States: N. p., 2018. 
        Web.  doi:10.1016/j.nima.2018.01.016.

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                    Repond, J., Xia, L., Eigen, G., Price, T., Watson, N. K., Winter, A., Thomson, M. A., Cârloganu, C., Blazey, G. C., Dyshkant, A., Francis, K., Zutshi, V., Gadow, K., Göttlicher, P., Hartbrich, O., Kotera, K., Krivan, F., Krüger, K., Lu, S., Lutz, B., Reinecke, M., Sefkow, F., Sudo, Y., Tran, H. L., Kaplan, A., Schultz-Coulon, H. -Ch., Bilki, B., Northacker, D., Onel, Y., Wilson, G. W., Kawagoe, K., Sekiya, I., Suehara, T., Yamashiro, H., Yoshioka, T., Alamillo, E. Calvo, Fouz, M. C., Marin, J., Navarrete, J., Pelayo, J. Puerta, Verdugo, A., Chadeeva, M., Danilov, M., Gabriel, M., Goecke, P., Graf, C., Israeli, Y., Kolk, N. van der, Simon, F., Szalay, M., Windel, H., Bilokin, S., Bonis, J., Pöschl, R., Thiebault, A., Richard, F., Zerwas, D., Balagura, V., Boudry, V., Brient, J. -C., Cornat, R., Cvach, J., Janata, M., Kovalcuk, M., Kvasnicka, J., Polak, I., Smolik, J., Vrba, V., Zalesak, J., Zuklin, J., Choi, W., Kotera, K., Nishiyama, M., Sakuma, T., Takeshita, T., Tozuka, S., Tsubokawa, T., Uozumi, S., Jeans, D., Ootani, W., Liu, L., Chang, S., Khan, A., Kim, D. H., Kong, D. J., Oh, Y. D., Ikuno, T., Sudo, Y., Takahashi, Y., & Götze, M. Construction and response of a highly granular scintillator-based electromagnetic calorimeter.  United States.  doi:10.1016/j.nima.2018.01.016.

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                    Repond, J., Xia, L., Eigen, G., Price, T., Watson, N. K., Winter, A., Thomson, M. A., Cârloganu, C., Blazey, G. C., Dyshkant, A., Francis, K., Zutshi, V., Gadow, K., Göttlicher, P., Hartbrich, O., Kotera, K., Krivan, F., Krüger, K., Lu, S., Lutz, B., Reinecke, M., Sefkow, F., Sudo, Y., Tran, H. L., Kaplan, A., Schultz-Coulon, H. -Ch., Bilki, B., Northacker, D., Onel, Y., Wilson, G. W., Kawagoe, K., Sekiya, I., Suehara, T., Yamashiro, H., Yoshioka, T., Alamillo, E. Calvo, Fouz, M. C., Marin, J., Navarrete, J., Pelayo, J. Puerta, Verdugo, A., Chadeeva, M., Danilov, M., Gabriel, M., Goecke, P., Graf, C., Israeli, Y., Kolk, N. van der, Simon, F., Szalay, M., Windel, H., Bilokin, S., Bonis, J., Pöschl, R., Thiebault, A., Richard, F., Zerwas, D., Balagura, V., Boudry, V., Brient, J. -C., Cornat, R., Cvach, J., Janata, M., Kovalcuk, M., Kvasnicka, J., Polak, I., Smolik, J., Vrba, V., Zalesak, J., Zuklin, J., Choi, W., Kotera, K., Nishiyama, M., Sakuma, T., Takeshita, T., Tozuka, S., Tsubokawa, T., Uozumi, S., Jeans, D., Ootani, W., Liu, L., Chang, S., Khan, A., Kim, D. H., Kong, D. J., Oh, Y. D., Ikuno, T., Sudo, Y., Takahashi, Y., and Götze, M. Thu .  
        "Construction and response of a highly granular scintillator-based electromagnetic calorimeter".  United States.  doi:10.1016/j.nima.2018.01.016.  https://www.osti.gov/servlets/purl/1477880.

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@article{osti_1477880,

  title        = {Construction and response of a highly granular scintillator-based electromagnetic calorimeter},

  author       = {Repond, J. and Xia, L. and Eigen, G. and Price, T. and Watson, N. K. and Winter, A. and Thomson, M. A. and Cârloganu, C. and Blazey, G. C. and Dyshkant, A. and Francis, K. and Zutshi, V. and Gadow, K. and Göttlicher, P. and Hartbrich, O. and Kotera, K. and Krivan, F. and Krüger, K. and Lu, S. and Lutz, B. and Reinecke, M. and Sefkow, F. and Sudo, Y. and Tran, H. L. and Kaplan, A. and Schultz-Coulon, H. -Ch. and Bilki, B. and Northacker, D. and Onel, Y. and Wilson, G. W. and Kawagoe, K. and Sekiya, I. and Suehara, T. and Yamashiro, H. and Yoshioka, T. and Alamillo, E. Calvo and Fouz, M. C. and Marin, J. and Navarrete, J. and Pelayo, J. Puerta and Verdugo, A. and Chadeeva, M. and Danilov, M. and Gabriel, M. and Goecke, P. and Graf, C. and Israeli, Y. and Kolk, N. van der and Simon, F. and Szalay, M. and Windel, H. and Bilokin, S. and Bonis, J. and Pöschl, R. and Thiebault, A. and Richard, F. and Zerwas, D. and Balagura, V. and Boudry, V. and Brient, J. -C. and Cornat, R. and Cvach, J. and Janata, M. and Kovalcuk, M. and Kvasnicka, J. and Polak, I. and Smolik, J. and Vrba, V. and Zalesak, J. and Zuklin, J. and Choi, W. and Kotera, K. and Nishiyama, M. and Sakuma, T. and Takeshita, T. and Tozuka, S. and Tsubokawa, T. and Uozumi, S. and Jeans, D. and Ootani, W. and Liu, L. and Chang, S. and Khan, A. and Kim, D. H. and Kong, D. J. and Oh, Y. D. and Ikuno, T. and Sudo, Y. and Takahashi, Y. and Götze, M.},

  abstractNote = {Here, a highly granular electromagnetic calorimeter with scintillator strip readout is being developed for future linear collider experiments. A prototype of 21.5 X0 depth and 180×180mm2 transverse dimensions was constructed, consisting of 2160 individually read out 10×45×3mm3 scintillator strips. This prototype was tested using electrons of 2–32 GeV at the Fermilab Test Beam Facility in 2009. Deviations from linear energy response were less than 1.1%, and the intrinsic energy resolution was determined to be (12.5±0.1(stat.)±0.4(syst.))%/E[GeV]⊕(1.2±0.1(stat.)-0.7+0.6(syst.))%, where the uncertainties correspond to statistical and systematic sources, respectively.},

  doi          = {10.1016/j.nima.2018.01.016},

  journal      = {Nuclear Instruments and Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment},

  issn         = {0168-9002},

  number       = ,

  volume       = 887,

  place        = {United States},

  year         = {2018},

  month        = {1}

}

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DOI: 10.1016/j.nima.2018.01.016

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