Quartz fibre calorimetry - Monte Carlo simulation

G. Anzivino; Yu Chumarovsky; A. Contin; M. Danilov; G. Dellacasa; R. DeSalvo; V. Gavrilov; A. Golutvin; P. Gorodetzky; J. M. Helleboid; V. Isaev; K. F. Johnson; P. Juillot; S. Kuleshov; D. Lazic; D. Litvinsev; M. Lundin; M. Marino; A. Musso; F. Ratnikov; V. Rusinov; V. Stolin; M. Vinogradov

doi:10.1016/0168-9002(94)01704-2

Quartz fibre calorimetry - Monte Carlo simulation

G. Anzivino, Yu Chumarovsky, A. Contin, M. Danilov, G. Dellacasa, R. DeSalvo, V. Gavrilov, A. Golutvin, P. Gorodetzky, J. M. Helleboid, V. Isaev, K. F. Johnson, P. Juillot, S. Kuleshov, D. Lazic, D. Litvinsev, M. Lundin, M. Marino, A. Musso, F. RatnikovV. Rusinov, V. Stolin, M. Vinogradov

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

15 Citas (Scopus)

Resumen

Calorimeters based on silicon core fibres embedded into an absorber have been simulated by combining the GEANT 3.16 package and a proprietary routine describing Cherenkov photon production in optical fibres. The good agreement between simulation results and experimental data allows to study, with a high degree of confidence, the design of a prototype hadronic detector and of different calorimeter configurations to cover the very forward regions of an LHC experiment. © 1995.

Idioma original	Inglés
Páginas (desde-hasta)	380-385
Número de páginas	6
Publicación	Nuclear Inst. and Methods in Physics Research, A
DOI	https://doi.org/10.1016/0168-9002(94)01704-2
Estado	Publicada - 21 abr 1995
Publicado de forma externa	Sí

Áreas temáticas de ASJC Scopus

Física nuclear y de alta energía

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10.1016/0168-9002(94)01704-2

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Anzivino, G., Chumarovsky, Y., Contin, A., Danilov, M., Dellacasa, G., DeSalvo, R., Gavrilov, V., Golutvin, A., Gorodetzky, P., Helleboid, J. M., Isaev, V., Johnson, K. F., Juillot, P., Kuleshov, S., Lazic, D., Litvinsev, D., Lundin, M., Marino, M., Musso, A., ... Vinogradov, M. (1995). Quartz fibre calorimetry - Monte Carlo simulation. Nuclear Inst. and Methods in Physics Research, A, 380-385. https://doi.org/10.1016/0168-9002(94)01704-2

Anzivino, G. ; Chumarovsky, Yu ; Contin, A. ; Danilov, M. ; Dellacasa, G. ; DeSalvo, R. ; Gavrilov, V. ; Golutvin, A. ; Gorodetzky, P. ; Helleboid, J. M. ; Isaev, V. ; Johnson, K. F. ; Juillot, P. ; Kuleshov, S. ; Lazic, D. ; Litvinsev, D. ; Lundin, M. ; Marino, M. ; Musso, A. ; Ratnikov, F. ; Rusinov, V. ; Stolin, V. ; Vinogradov, M. / Quartz fibre calorimetry - Monte Carlo simulation. En: Nuclear Inst. and Methods in Physics Research, A. 1995 ; pp. 380-385.

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title = "Quartz fibre calorimetry - Monte Carlo simulation",

abstract = "Calorimeters based on silicon core fibres embedded into an absorber have been simulated by combining the GEANT 3.16 package and a proprietary routine describing Cherenkov photon production in optical fibres. The good agreement between simulation results and experimental data allows to study, with a high degree of confidence, the design of a prototype hadronic detector and of different calorimeter configurations to cover the very forward regions of an LHC experiment. {\textcopyright} 1995.",

author = "G. Anzivino and Yu Chumarovsky and A. Contin and M. Danilov and G. Dellacasa and R. DeSalvo and V. Gavrilov and A. Golutvin and P. Gorodetzky and Helleboid, {J. M.} and V. Isaev and Johnson, {K. F.} and P. Juillot and S. Kuleshov and D. Lazic and D. Litvinsev and M. Lundin and M. Marino and A. Musso and F. Ratnikov and V. Rusinov and V. Stolin and M. Vinogradov",

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doi = "10.1016/0168-9002(94)01704-2",

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Anzivino, G, Chumarovsky, Y, Contin, A, Danilov, M, Dellacasa, G, DeSalvo, R, Gavrilov, V, Golutvin, A, Gorodetzky, P, Helleboid, JM, Isaev, V, Johnson, KF, Juillot, P, Kuleshov, S, Lazic, D, Litvinsev, D, Lundin, M, Marino, M, Musso, A, Ratnikov, F, Rusinov, V, Stolin, V & Vinogradov, M 1995, 'Quartz fibre calorimetry - Monte Carlo simulation', Nuclear Inst. and Methods in Physics Research, A, pp. 380-385. https://doi.org/10.1016/0168-9002(94)01704-2

Quartz fibre calorimetry - Monte Carlo simulation. / Anzivino, G.; Chumarovsky, Yu; Contin, A.; Danilov, M.; Dellacasa, G.; DeSalvo, R.; Gavrilov, V.; Golutvin, A.; Gorodetzky, P.; Helleboid, J. M.; Isaev, V.; Johnson, K. F.; Juillot, P.; Kuleshov, S.; Lazic, D.; Litvinsev, D.; Lundin, M.; Marino, M.; Musso, A.; Ratnikov, F.; Rusinov, V.; Stolin, V.; Vinogradov, M.

En: Nuclear Inst. and Methods in Physics Research, A, 21.04.1995, p. 380-385.

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Quartz fibre calorimetry - Monte Carlo simulation

AU - Anzivino, G.

AU - Chumarovsky, Yu

AU - Contin, A.

AU - Danilov, M.

AU - Dellacasa, G.

AU - DeSalvo, R.

AU - Gavrilov, V.

AU - Golutvin, A.

AU - Gorodetzky, P.

AU - Helleboid, J. M.

AU - Isaev, V.

AU - Johnson, K. F.

AU - Juillot, P.

AU - Kuleshov, S.

AU - Lazic, D.

AU - Litvinsev, D.

AU - Lundin, M.

AU - Marino, M.

AU - Musso, A.

AU - Ratnikov, F.

AU - Rusinov, V.

AU - Stolin, V.

AU - Vinogradov, M.

PY - 1995/4/21

Y1 - 1995/4/21

N2 - Calorimeters based on silicon core fibres embedded into an absorber have been simulated by combining the GEANT 3.16 package and a proprietary routine describing Cherenkov photon production in optical fibres. The good agreement between simulation results and experimental data allows to study, with a high degree of confidence, the design of a prototype hadronic detector and of different calorimeter configurations to cover the very forward regions of an LHC experiment. © 1995.

AB - Calorimeters based on silicon core fibres embedded into an absorber have been simulated by combining the GEANT 3.16 package and a proprietary routine describing Cherenkov photon production in optical fibres. The good agreement between simulation results and experimental data allows to study, with a high degree of confidence, the design of a prototype hadronic detector and of different calorimeter configurations to cover the very forward regions of an LHC experiment. © 1995.

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U2 - 10.1016/0168-9002(94)01704-2

DO - 10.1016/0168-9002(94)01704-2

M3 - Article

SP - 380

EP - 385

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

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

SN - 0168-9002

ER -

Quartz fibre calorimetry - Monte Carlo simulation

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