Zhang, J.

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Top-quark physics at the CLIC electron-positron linear collider

Abramowicz, H; Alipour Tehrani, N; Arominski, D; Benhammou, Y; Benoit, M; Blaising, J.-J.; Boronat, M; Borysov, O; Bosley, R R; Božović-Jelisavčić, Ivanka; Boyko, I; Brass, S; Brondolin, E; Bruckman de Renstrom, P.; Buckland, M; Burrows, P N; Chefdeville, M; Chekanov, S; Coates, T; Dannheim, D; Demarteau, M; Denizli, H; Durieux, G; Eigen, G; Elsener, K; Fullana, E; Fuster, J; Gabriel, M; Gaede, F; García, I; Goldstein, J; Gomis Lopez, P; Graf, C; Green, S; Grefe, C; Grojean, C; Hoang, A; Hynds, D; Joffe, A; Kalinowski, J; Kačarević, Goran; Kilian, W; van der Kolk, N; Krawczyk, M; Kucharczyk, M; Leogrande, E; Lesiak, T; Levy, A.; Levy, I; Linssen, L; Maier, A A; Makarenko, V; Marshall, J S; Martin, V; Mateu, V; Matsedonskyi, O; Metcalfe, J; Milutinović-Dumbelović, Gordana; Münker, R M; Nefedov, Yu.; Nowak, K; Nürnberg, A; Pandurović, Mila; Perelló, M; Perez Codina, E; Petric, M; Pitters, F; Price, T; Quast, T; Redford, S; Repond, J; Robson, A; Roloff, P; Ros, E; Rozwadowska, K; Ruiz-Jimeno, A; Sailer, A; Salvatore, F; Schnoor, U; Schulte, D; Senol, A; Shelkov, G; Sicking, E; Simon, F; Simoniello, R; Sopicki, P; Spannagel, S; Stapnes, S; Ström, R; Szalay, M; Thomson, M A; Turbiarz, B; Viazlo, O; Vicente, M; Vila, I; Vos, M; Vossebeld, J; Watson, M. F.; Watson, N K; Weber, M A; Weerts, H; Wells, J D; Widl, A; Williams, M; Winter, A.G.; Wojtoń, T; Wulzer, A; Xu, B; Xia, L; You, T; Żarnecki, A F; Zawiejski, L; Zhang, C.; Zhang, J.; Zhang, Y.; Zhang, Z; Zhemchugov, A

(2019)

TY  - JOUR
AU  - Abramowicz, H
AU  - Alipour Tehrani, N
AU  - Arominski, D
AU  - Benhammou, Y
AU  - Benoit, M
AU  - Blaising, J.-J.
AU  - Boronat, M
AU  - Borysov, O
AU  - Bosley, R R
AU  - Božović-Jelisavčić, Ivanka
AU  - Boyko, I
AU  - Brass, S
AU  - Brondolin, E
AU  - Bruckman de Renstrom, P.
AU  - Buckland, M
AU  - Burrows, P N
AU  - Chefdeville, M
AU  - Chekanov, S
AU  - Coates, T
AU  - Dannheim, D
AU  - Demarteau, M
AU  - Denizli, H
AU  - Durieux, G
AU  - Eigen, G
AU  - Elsener, K
AU  - Fullana, E
AU  - Fuster, J
AU  - Gabriel, M
AU  - Gaede, F
AU  - García, I
AU  - Goldstein, J
AU  - Gomis Lopez, P
AU  - Graf, C
AU  - Green, S
AU  - Grefe, C
AU  - Grojean, C
AU  - Hoang, A
AU  - Hynds, D
AU  - Joffe, A
AU  - Kalinowski, J
AU  - Kačarević, Goran
AU  - Kilian, W
AU  - van der Kolk, N
AU  - Krawczyk, M
AU  - Kucharczyk, M
AU  - Leogrande, E
AU  - Lesiak, T
AU  - Levy, A.
AU  - Levy, I
AU  - Linssen, L
AU  - Maier, A A
AU  - Makarenko, V
AU  - Marshall, J S
AU  - Martin, V
AU  - Mateu, V
AU  - Matsedonskyi, O
AU  - Metcalfe, J
AU  - Milutinović-Dumbelović, Gordana
AU  - Münker, R M
AU  - Nefedov, Yu.
AU  - Nowak, K
AU  - Nürnberg, A
AU  - Pandurović, Mila
AU  - Perelló, M
AU  - Perez Codina, E
AU  - Petric, M
AU  - Pitters, F
AU  - Price, T
AU  - Quast, T
AU  - Redford, S
AU  - Repond, J
AU  - Robson, A
AU  - Roloff, P
AU  - Ros, E
AU  - Rozwadowska, K
AU  - Ruiz-Jimeno, A
AU  - Sailer, A
AU  - Salvatore, F
AU  - Schnoor, U
AU  - Schulte, D
AU  - Senol, A
AU  - Shelkov, G
AU  - Sicking, E
AU  - Simon, F
AU  - Simoniello, R
AU  - Sopicki, P
AU  - Spannagel, S
AU  - Stapnes, S
AU  - Ström, R
AU  - Szalay, M
AU  - Thomson, M A
AU  - Turbiarz, B
AU  - Viazlo, O
AU  - Vicente, M
AU  - Vila, I
AU  - Vos, M
AU  - Vossebeld, J
AU  - Watson, M. F.
AU  - Watson, N K
AU  - Weber, M A
AU  - Weerts, H
AU  - Wells, J D
AU  - Widl, A
AU  - Williams, M
AU  - Winter, A.G.
AU  - Wojtoń, T
AU  - Wulzer, A
AU  - Xu, B
AU  - Xia, L
AU  - You, T
AU  - Żarnecki, A F
AU  - Zawiejski, L
AU  - Zhang, C.
AU  - Zhang, J.
AU  - Zhang, Y.
AU  - Zhang, Z
AU  - Zhemchugov, A
PY  - 2019
UR  - http://vinar.vin.bg.ac.rs/handle/123456789/8656
AB  - The Compact Linear Collider (CLIC) is a proposed future high-luminosity linear electron-positron collider operating at three energy stages, with nominal centre-of-mass energies s = 380 GeV, 1.5 TeV, and 3 TeV. Its aim is to explore the energy frontier, providing sensitivity to physics beyond the Standard Model (BSM) and precision measurements of Standard Model processes with an emphasis on Higgs boson and top-quark physics. The opportunities for top-quark physics at CLIC are discussed in this paper. The initial stage of operation focuses on top-quark pair production measurements, as well as the search for rare flavour-changing neutral current (FCNC) top-quark decays. It also includes a top-quark pair production threshold scan around 350 GeV which provides a precise measurement of the top-quark mass in a well-defined theoretical framework. At the higher-energy stages, studies are made of top-quark pairs produced in association with other particles. A study of t̄tH production including the extraction of the top Yukawa coupling is presented as well as a study of vector boson fusion (VBF) production, which gives direct access to high-energy electroweak interactions. Operation above 1 TeV leads to more highly collimated jet environments where dedicated methods are used to analyse the jet constituents. These techniques enable studies of the top-quark pair production, and hence the sensitivity to BSM physics, to be extended to higher energies. This paper also includes phenomenological interpretations that may be performed using the results from the extensive top-quark physics programme at CLIC. [Figure not available: see fulltext.] © 2019, The Author(s).
T2  - Journal of High Energy Physics
T1  - Top-quark physics at the CLIC electron-positron linear collider
VL  - 2019
IS  - 11
SP  - 3
DO  - 10.1007/JHEP11(2019)003
ER  - 
@article{
author = "Abramowicz, H and Alipour Tehrani, N and Arominski, D and Benhammou, Y and Benoit, M and Blaising, J.-J. and Boronat, M and Borysov, O and Bosley, R R and Božović-Jelisavčić, Ivanka and Boyko, I and Brass, S and Brondolin, E and Bruckman de Renstrom, P. and Buckland, M and Burrows, P N and Chefdeville, M and Chekanov, S and Coates, T and Dannheim, D and Demarteau, M and Denizli, H and Durieux, G and Eigen, G and Elsener, K and Fullana, E and Fuster, J and Gabriel, M and Gaede, F and García, I and Goldstein, J and Gomis Lopez, P and Graf, C and Green, S and Grefe, C and Grojean, C and Hoang, A and Hynds, D and Joffe, A and Kalinowski, J and Kačarević, Goran and Kilian, W and van der Kolk, N and Krawczyk, M and Kucharczyk, M and Leogrande, E and Lesiak, T and Levy, A. and Levy, I and Linssen, L and Maier, A A and Makarenko, V and Marshall, J S and Martin, V and Mateu, V and Matsedonskyi, O and Metcalfe, J and Milutinović-Dumbelović, Gordana and Münker, R M and Nefedov, Yu. and Nowak, K and Nürnberg, A and Pandurović, Mila and Perelló, M and Perez Codina, E and Petric, M and Pitters, F and Price, T and Quast, T and Redford, S and Repond, J and Robson, A and Roloff, P and Ros, E and Rozwadowska, K and Ruiz-Jimeno, A and Sailer, A and Salvatore, F and Schnoor, U and Schulte, D and Senol, A and Shelkov, G and Sicking, E and Simon, F and Simoniello, R and Sopicki, P and Spannagel, S and Stapnes, S and Ström, R and Szalay, M and Thomson, M A and Turbiarz, B and Viazlo, O and Vicente, M and Vila, I and Vos, M and Vossebeld, J and Watson, M. F. and Watson, N K and Weber, M A and Weerts, H and Wells, J D and Widl, A and Williams, M and Winter, A.G. and Wojtoń, T and Wulzer, A and Xu, B and Xia, L and You, T and Żarnecki, A F and Zawiejski, L and Zhang, C. and Zhang, J. and Zhang, Y. and Zhang, Z and Zhemchugov, A",
year = "2019",
url = "http://vinar.vin.bg.ac.rs/handle/123456789/8656",
abstract = "The Compact Linear Collider (CLIC) is a proposed future high-luminosity linear electron-positron collider operating at three energy stages, with nominal centre-of-mass energies s = 380 GeV, 1.5 TeV, and 3 TeV. Its aim is to explore the energy frontier, providing sensitivity to physics beyond the Standard Model (BSM) and precision measurements of Standard Model processes with an emphasis on Higgs boson and top-quark physics. The opportunities for top-quark physics at CLIC are discussed in this paper. The initial stage of operation focuses on top-quark pair production measurements, as well as the search for rare flavour-changing neutral current (FCNC) top-quark decays. It also includes a top-quark pair production threshold scan around 350 GeV which provides a precise measurement of the top-quark mass in a well-defined theoretical framework. At the higher-energy stages, studies are made of top-quark pairs produced in association with other particles. A study of t̄tH production including the extraction of the top Yukawa coupling is presented as well as a study of vector boson fusion (VBF) production, which gives direct access to high-energy electroweak interactions. Operation above 1 TeV leads to more highly collimated jet environments where dedicated methods are used to analyse the jet constituents. These techniques enable studies of the top-quark pair production, and hence the sensitivity to BSM physics, to be extended to higher energies. This paper also includes phenomenological interpretations that may be performed using the results from the extensive top-quark physics programme at CLIC. [Figure not available: see fulltext.] © 2019, The Author(s).",
journal = "Journal of High Energy Physics",
title = "Top-quark physics at the CLIC electron-positron linear collider",
volume = "2019",
number = "11",
pages = "3",
doi = "10.1007/JHEP11(2019)003"
}
Abramowicz, H., Alipour Tehrani, N., Arominski, D., Benhammou, Y., Benoit, M., Blaising, J.-J., Boronat, M., Borysov, O., Bosley, R. R., Božović-Jelisavčić, I., Boyko, I., Brass, S., Brondolin, E., Bruckman de Renstrom, P., Buckland, M., Burrows, P. N., Chefdeville, M., Chekanov, S., Coates, T., Dannheim, D., Demarteau, M., Denizli, H., Durieux, G., Eigen, G., Elsener, K., Fullana, E., Fuster, J., Gabriel, M., Gaede, F., García, I., Goldstein, J., Gomis Lopez, P., Graf, C., Green, S., Grefe, C., Grojean, C., Hoang, A., Hynds, D., Joffe, A., Kalinowski, J., Kačarević, G., Kilian, W., van der Kolk, N., Krawczyk, M., Kucharczyk, M., Leogrande, E., Lesiak, T., Levy, A., Levy, I., Linssen, L., Maier, A. A., Makarenko, V., Marshall, J. S., Martin, V., Mateu, V., Matsedonskyi, O., Metcalfe, J., Milutinović-Dumbelović, G., Münker, R. M., Nefedov, Yu., Nowak, K., Nürnberg, A., Pandurović, M., Perelló, M., Perez Codina, E., Petric, M., Pitters, F., Price, T., Quast, T., Redford, S., Repond, J., Robson, A., Roloff, P., Ros, E., Rozwadowska, K., Ruiz-Jimeno, A., Sailer, A., Salvatore, F., Schnoor, U., Schulte, D., Senol, A., Shelkov, G., Sicking, E., Simon, F., Simoniello, R., Sopicki, P., Spannagel, S., Stapnes, S., Ström, R., Szalay, M., Thomson, M. A., Turbiarz, B., Viazlo, O., Vicente, M., Vila, I., Vos, M., Vossebeld, J., Watson, M. F., Watson, N. K., Weber, M. A., Weerts, H., Wells, J. D., Widl, A., Williams, M., Winter, A.G., Wojtoń, T., Wulzer, A., Xu, B., Xia, L., You, T., Żarnecki, A. F., Zawiejski, L., Zhang, C., Zhang, J., Zhang, Y., Zhang, Z.,& Zhemchugov, A. (2019). Top-quark physics at the CLIC electron-positron linear collider.
Journal of High Energy Physics, 2019(11), 3.
https://doi.org/10.1007/JHEP11(2019)003
Abramowicz H, Alipour Tehrani N, Arominski D, Benhammou Y, Benoit M, Blaising J, Boronat M, Borysov O, Bosley RR, Božović-Jelisavčić I, Boyko I, Brass S, Brondolin E, Bruckman de Renstrom P, Buckland M, Burrows PN, Chefdeville M, Chekanov S, Coates T, Dannheim D, Demarteau M, Denizli H, Durieux G, Eigen G, Elsener K, Fullana E, Fuster J, Gabriel M, Gaede F, García I, Goldstein J, Gomis Lopez P, Graf C, Green S, Grefe C, Grojean C, Hoang A, Hynds D, Joffe A, Kalinowski J, Kačarević G, Kilian W, van der Kolk N, Krawczyk M, Kucharczyk M, Leogrande E, Lesiak T, Levy A, Levy I, Linssen L, Maier AA, Makarenko V, Marshall JS, Martin V, Mateu V, Matsedonskyi O, Metcalfe J, Milutinović-Dumbelović G, Münker RM, Nefedov Y, Nowak K, Nürnberg A, Pandurović M, Perelló M, Perez Codina E, Petric M, Pitters F, Price T, Quast T, Redford S, Repond J, Robson A, Roloff P, Ros E, Rozwadowska K, Ruiz-Jimeno A, Sailer A, Salvatore F, Schnoor U, Schulte D, Senol A, Shelkov G, Sicking E, Simon F, Simoniello R, Sopicki P, Spannagel S, Stapnes S, Ström R, Szalay M, Thomson MA, Turbiarz B, Viazlo O, Vicente M, Vila I, Vos M, Vossebeld J, Watson MF, Watson NK, Weber MA, Weerts H, Wells JD, Widl A, Williams M, Winter A, Wojtoń T, Wulzer A, Xu B, Xia L, You T, Żarnecki AF, Zawiejski L, Zhang C, Zhang J, Zhang Y, Zhang Z, Zhemchugov A. Top-quark physics at the CLIC electron-positron linear collider. Journal of High Energy Physics. 2019;2019(11):3
Abramowicz H, Alipour Tehrani N, Arominski D, Benhammou Y, Benoit M, Blaising J.-J., Boronat M, Borysov O, Bosley R R, Božović-Jelisavčić Ivanka, Boyko I, Brass S, Brondolin E, Bruckman de Renstrom P., Buckland M, Burrows P N, Chefdeville M, Chekanov S, Coates T, Dannheim D, Demarteau M, Denizli H, Durieux G, Eigen G, Elsener K, Fullana E, Fuster J, Gabriel M, Gaede F, García I, Goldstein J, Gomis Lopez P, Graf C, Green S, Grefe C, Grojean C, Hoang A, Hynds D, Joffe A, Kalinowski J, Kačarević Goran, Kilian W, van der Kolk N, Krawczyk M, Kucharczyk M, Leogrande E, Lesiak T, Levy A., Levy I, Linssen L, Maier A A, Makarenko V, Marshall J S, Martin V, Mateu V, Matsedonskyi O, Metcalfe J, Milutinović-Dumbelović Gordana, Münker R M, Nefedov Yu., Nowak K, Nürnberg A, Pandurović Mila, Perelló M, Perez Codina E, Petric M, Pitters F, Price T, Quast T, Redford S, Repond J, Robson A, Roloff P, Ros E, Rozwadowska K, Ruiz-Jimeno A, Sailer A, Salvatore F, Schnoor U, Schulte D, Senol A, Shelkov G, Sicking E, Simon F, Simoniello R, Sopicki P, Spannagel S, Stapnes S, Ström R, Szalay M, Thomson M A, Turbiarz B, Viazlo O, Vicente M, Vila I, Vos M, Vossebeld J, Watson M. F., Watson N K, Weber M A, Weerts H, Wells J D, Widl A, Williams M, Winter A.G., Wojtoń T, Wulzer A, Xu B, Xia L, You T, Żarnecki A F, Zawiejski L, Zhang C., Zhang J., Zhang Y., Zhang Z, Zhemchugov A, "Top-quark physics at the CLIC electron-positron linear collider" Journal of High Energy Physics, 2019, no. 11 (2019):3,
https://doi.org/10.1007/JHEP11(2019)003 .
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Forward instrumentation for ILC detectors

Abramowicz, H.; Abusleme, A.; Afanaciev, K.; Aguilar, J.; Ambalathankandy, P.; Bambade, P.; Bergholz, M.; Božović-Jelisavčić, Ivanka; Castro, E.; Chelkov, G.; Coca, C.; Daniluk, W.; Dragone, A.; Dumitru, L.; Elsener, K.; Emeliantchik, I.; Fiutowski, T.; Gostkin, M.; Grah, C.; Grzelak, G.; Haller, G.; Henschel, H.; Ignatenko, A.; Idzik, M.; Ito, K.; Jovin, Tatjana; Kielar, E.; Kotula, J.; Krumstein, Z.; Kulis, S.; Lange, W.; Lohmann, W.; Levy, A.; Moszczynski, A.; Nauenberg, U.; Novgorodova, O.; Ohlerich, M.; Orlande, M.; Oleinik, G.; Oliwa, K.; Olshevski, A.; Pandurović, Mila; Pawlik, B.; Przyborowski, D.; Sato, Y.; Sadeh, I.; Sailer, A.; Schmidt, R.; Schumm, B.; Schuwalow, S.; Smiljanić, Ivan; Swientek, K.; Takubo, Y.; Teodorescu, E.; Wierba, W.; Yamamoto, Hitoshi; Zawiejski, L.; Zhang, J.

(2010)

TY  - JOUR
AU  - Abramowicz, H.
AU  - Abusleme, A.
AU  - Afanaciev, K.
AU  - Aguilar, J.
AU  - Ambalathankandy, P.
AU  - Bambade, P.
AU  - Bergholz, M.
AU  - Božović-Jelisavčić, Ivanka
AU  - Castro, E.
AU  - Chelkov, G.
AU  - Coca, C.
AU  - Daniluk, W.
AU  - Dragone, A.
AU  - Dumitru, L.
AU  - Elsener, K.
AU  - Emeliantchik, I.
AU  - Fiutowski, T.
AU  - Gostkin, M.
AU  - Grah, C.
AU  - Grzelak, G.
AU  - Haller, G.
AU  - Henschel, H.
AU  - Ignatenko, A.
AU  - Idzik, M.
AU  - Ito, K.
AU  - Jovin, Tatjana
AU  - Kielar, E.
AU  - Kotula, J.
AU  - Krumstein, Z.
AU  - Kulis, S.
AU  - Lange, W.
AU  - Lohmann, W.
AU  - Levy, A.
AU  - Moszczynski, A.
AU  - Nauenberg, U.
AU  - Novgorodova, O.
AU  - Ohlerich, M.
AU  - Orlande, M.
AU  - Oleinik, G.
AU  - Oliwa, K.
AU  - Olshevski, A.
AU  - Pandurović, Mila
AU  - Pawlik, B.
AU  - Przyborowski, D.
AU  - Sato, Y.
AU  - Sadeh, I.
AU  - Sailer, A.
AU  - Schmidt, R.
AU  - Schumm, B.
AU  - Schuwalow, S.
AU  - Smiljanić, Ivan
AU  - Swientek, K.
AU  - Takubo, Y.
AU  - Teodorescu, E.
AU  - Wierba, W.
AU  - Yamamoto, Hitoshi
AU  - Zawiejski, L.
AU  - Zhang, J.
PY  - 2010
UR  - http://vinar.vin.bg.ac.rs/handle/123456789/4231
AB  - Two special calorimeters are foreseen for the instrumentation of the very forward region of the ILC detector, a luminometer designed to measure the rate of low angle Bhabha scattering events with a precision better than 10(-3) and a low polar angle calorimeter, adjacent to the beam-pipe. The latter will be hit by a large amount of beamstrahlung remnants. The amount and shape of these depositions will allow a fast luminosity estimate and the determination of beam parameters. The sensors of this calorimeter must be radiation hard. Both devices will improve the hermeticity of the detector in the search for new particles. Finely segmented and very compact calorimeters will match the requirements. Due to the high occupancy fast front-end electronics is needed. The design of the calorimeters developed and optimised with Monte Carlo simulations is presented. Sensors and readout electronics ASICs have been designed and prototypes are available. Results on the performance of these major components are summarised.
T2  - Journal of Instrumentation
T1  - Forward instrumentation for ILC detectors
VL  - 5
DO  - 10.1088/1748-0221/5/12/P12002
ER  - 
@article{
author = "Abramowicz, H. and Abusleme, A. and Afanaciev, K. and Aguilar, J. and Ambalathankandy, P. and Bambade, P. and Bergholz, M. and Božović-Jelisavčić, Ivanka and Castro, E. and Chelkov, G. and Coca, C. and Daniluk, W. and Dragone, A. and Dumitru, L. and Elsener, K. and Emeliantchik, I. and Fiutowski, T. and Gostkin, M. and Grah, C. and Grzelak, G. and Haller, G. and Henschel, H. and Ignatenko, A. and Idzik, M. and Ito, K. and Jovin, Tatjana and Kielar, E. and Kotula, J. and Krumstein, Z. and Kulis, S. and Lange, W. and Lohmann, W. and Levy, A. and Moszczynski, A. and Nauenberg, U. and Novgorodova, O. and Ohlerich, M. and Orlande, M. and Oleinik, G. and Oliwa, K. and Olshevski, A. and Pandurović, Mila and Pawlik, B. and Przyborowski, D. and Sato, Y. and Sadeh, I. and Sailer, A. and Schmidt, R. and Schumm, B. and Schuwalow, S. and Smiljanić, Ivan and Swientek, K. and Takubo, Y. and Teodorescu, E. and Wierba, W. and Yamamoto, Hitoshi and Zawiejski, L. and Zhang, J.",
year = "2010",
url = "http://vinar.vin.bg.ac.rs/handle/123456789/4231",
abstract = "Two special calorimeters are foreseen for the instrumentation of the very forward region of the ILC detector, a luminometer designed to measure the rate of low angle Bhabha scattering events with a precision better than 10(-3) and a low polar angle calorimeter, adjacent to the beam-pipe. The latter will be hit by a large amount of beamstrahlung remnants. The amount and shape of these depositions will allow a fast luminosity estimate and the determination of beam parameters. The sensors of this calorimeter must be radiation hard. Both devices will improve the hermeticity of the detector in the search for new particles. Finely segmented and very compact calorimeters will match the requirements. Due to the high occupancy fast front-end electronics is needed. The design of the calorimeters developed and optimised with Monte Carlo simulations is presented. Sensors and readout electronics ASICs have been designed and prototypes are available. Results on the performance of these major components are summarised.",
journal = "Journal of Instrumentation",
title = "Forward instrumentation for ILC detectors",
volume = "5",
doi = "10.1088/1748-0221/5/12/P12002"
}
Abramowicz, H., Abusleme, A., Afanaciev, K., Aguilar, J., Ambalathankandy, P., Bambade, P., Bergholz, M., Božović-Jelisavčić, I., Castro, E., Chelkov, G., Coca, C., Daniluk, W., Dragone, A., Dumitru, L., Elsener, K., Emeliantchik, I., Fiutowski, T., Gostkin, M., Grah, C., Grzelak, G., Haller, G., Henschel, H., Ignatenko, A., Idzik, M., Ito, K., Jovin, T., Kielar, E., Kotula, J., Krumstein, Z., Kulis, S., Lange, W., Lohmann, W., Levy, A., Moszczynski, A., Nauenberg, U., Novgorodova, O., Ohlerich, M., Orlande, M., Oleinik, G., Oliwa, K., Olshevski, A., Pandurović, M., Pawlik, B., Przyborowski, D., Sato, Y., Sadeh, I., Sailer, A., Schmidt, R., Schumm, B., Schuwalow, S., Smiljanić, I., Swientek, K., Takubo, Y., Teodorescu, E., Wierba, W., Yamamoto, H., Zawiejski, L.,& Zhang, J. (2010). Forward instrumentation for ILC detectors.
Journal of Instrumentation, 5.
https://doi.org/10.1088/1748-0221/5/12/P12002
Abramowicz H, Abusleme A, Afanaciev K, Aguilar J, Ambalathankandy P, Bambade P, Bergholz M, Božović-Jelisavčić I, Castro E, Chelkov G, Coca C, Daniluk W, Dragone A, Dumitru L, Elsener K, Emeliantchik I, Fiutowski T, Gostkin M, Grah C, Grzelak G, Haller G, Henschel H, Ignatenko A, Idzik M, Ito K, Jovin T, Kielar E, Kotula J, Krumstein Z, Kulis S, Lange W, Lohmann W, Levy A, Moszczynski A, Nauenberg U, Novgorodova O, Ohlerich M, Orlande M, Oleinik G, Oliwa K, Olshevski A, Pandurović M, Pawlik B, Przyborowski D, Sato Y, Sadeh I, Sailer A, Schmidt R, Schumm B, Schuwalow S, Smiljanić I, Swientek K, Takubo Y, Teodorescu E, Wierba W, Yamamoto H, Zawiejski L, Zhang J. Forward instrumentation for ILC detectors. Journal of Instrumentation. 2010;5
Abramowicz H., Abusleme A., Afanaciev K., Aguilar J., Ambalathankandy P., Bambade P., Bergholz M., Božović-Jelisavčić Ivanka, Castro E., Chelkov G., Coca C., Daniluk W., Dragone A., Dumitru L., Elsener K., Emeliantchik I., Fiutowski T., Gostkin M., Grah C., Grzelak G., Haller G., Henschel H., Ignatenko A., Idzik M., Ito K., Jovin Tatjana, Kielar E., Kotula J., Krumstein Z., Kulis S., Lange W., Lohmann W., Levy A., Moszczynski A., Nauenberg U., Novgorodova O., Ohlerich M., Orlande M., Oleinik G., Oliwa K., Olshevski A., Pandurović Mila, Pawlik B., Przyborowski D., Sato Y., Sadeh I., Sailer A., Schmidt R., Schumm B., Schuwalow S., Smiljanić Ivan, Swientek K., Takubo Y., Teodorescu E., Wierba W., Yamamoto Hitoshi, Zawiejski L., Zhang J., "Forward instrumentation for ILC detectors" Journal of Instrumentation, 5 (2010),
https://doi.org/10.1088/1748-0221/5/12/P12002 .
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