FCC-ee interaction region backgrounds

Publikation: Bidrag til tidsskriftKonferenceartikelForskningfagfællebedømt

Standard

FCC-ee interaction region backgrounds. / Voutsinas, G.; Elsener, K.; Janot, P.; El Khechen, D.; Kolano, A.; Leogrande, E.; Perez, E. F.; Tehrani, N. A.; Viazlo, O.; Boscolo, M.; Blanco, O.; Collamati, F.; Bacchetta, N.; Dam, M.; Sullivan, M. K.

I: International Journal of Modern Physics A, Bind 35, Nr. 15-16, 2041009, 10.06.2020.

Publikation: Bidrag til tidsskriftKonferenceartikelForskningfagfællebedømt

Harvard

Voutsinas, G, Elsener, K, Janot, P, El Khechen, D, Kolano, A, Leogrande, E, Perez, EF, Tehrani, NA, Viazlo, O, Boscolo, M, Blanco, O, Collamati, F, Bacchetta, N, Dam, M & Sullivan, MK 2020, 'FCC-ee interaction region backgrounds', International Journal of Modern Physics A, bind 35, nr. 15-16, 2041009. https://doi.org/10.1142/S0217751X20410092

APA

Voutsinas, G., Elsener, K., Janot, P., El Khechen, D., Kolano, A., Leogrande, E., Perez, E. F., Tehrani, N. A., Viazlo, O., Boscolo, M., Blanco, O., Collamati, F., Bacchetta, N., Dam, M., & Sullivan, M. K. (2020). FCC-ee interaction region backgrounds. International Journal of Modern Physics A, 35(15-16), [2041009]. https://doi.org/10.1142/S0217751X20410092

Vancouver

Voutsinas G, Elsener K, Janot P, El Khechen D, Kolano A, Leogrande E o.a. FCC-ee interaction region backgrounds. International Journal of Modern Physics A. 2020 jun. 10;35(15-16). 2041009. https://doi.org/10.1142/S0217751X20410092

Author

Voutsinas, G. ; Elsener, K. ; Janot, P. ; El Khechen, D. ; Kolano, A. ; Leogrande, E. ; Perez, E. F. ; Tehrani, N. A. ; Viazlo, O. ; Boscolo, M. ; Blanco, O. ; Collamati, F. ; Bacchetta, N. ; Dam, M. ; Sullivan, M. K. / FCC-ee interaction region backgrounds. I: International Journal of Modern Physics A. 2020 ; Bind 35, Nr. 15-16.

Bibtex

@inproceedings{46afbe64e6354cb1bfa6088c8938de0c,
title = "FCC-ee interaction region backgrounds",
abstract = "The FCC-ee machine induced backgrounds on the two proposed detectors (CLD and IDEA) have been studied in detail. Synchrotron Radiation (SR) considerations dictate the Interaction Region (IR) optimization. An asymmetric IR design limits the final bend critical energy to 100 keV. Masks placed before the final focus quadrupole protect the detector from direct hits, and a shield placed around the beam pipe from secondary particles, keeping the effect of SR on the detector to negligible levels. The most important source of background is expected to be the Incoherent Pair Creation (IPC). Its effect has been studied in full simulation and reconstruction, and it was shown that it will not pose a problem for the detector, even if conservative estimations for the time resolution of the detector sensors are assumed. Moreover, the gamma gamma -> hadrons, radiative Bhabhas and beam-gas interaction induced backgrounds were studied. All were found to have small to negligible effect on the detector. Overall, the FCC-ee interaction region backgrounds are not expected to compromise the detector performance.",
keywords = "FCC-ee, machine detector interface, backgrounds",
author = "G. Voutsinas and K. Elsener and P. Janot and {El Khechen}, D. and A. Kolano and E. Leogrande and Perez, {E. F.} and Tehrani, {N. A.} and O. Viazlo and M. Boscolo and O. Blanco and F. Collamati and N. Bacchetta and M. Dam and Sullivan, {M. K.}",
year = "2020",
month = jun,
day = "10",
doi = "10.1142/S0217751X20410092",
language = "English",
volume = "35",
journal = "International Journal of Modern Physics A",
issn = "0217-751X",
publisher = "World Scientific Publishing Co. Pte. Ltd.",
number = "15-16",
note = "5th Annual Meeting on High Energy Phisics ; Conference date: 07-01-2019 Through 25-01-2019",

}

RIS

TY - GEN

T1 - FCC-ee interaction region backgrounds

AU - Voutsinas, G.

AU - Elsener, K.

AU - Janot, P.

AU - El Khechen, D.

AU - Kolano, A.

AU - Leogrande, E.

AU - Perez, E. F.

AU - Tehrani, N. A.

AU - Viazlo, O.

AU - Boscolo, M.

AU - Blanco, O.

AU - Collamati, F.

AU - Bacchetta, N.

AU - Dam, M.

AU - Sullivan, M. K.

PY - 2020/6/10

Y1 - 2020/6/10

N2 - The FCC-ee machine induced backgrounds on the two proposed detectors (CLD and IDEA) have been studied in detail. Synchrotron Radiation (SR) considerations dictate the Interaction Region (IR) optimization. An asymmetric IR design limits the final bend critical energy to 100 keV. Masks placed before the final focus quadrupole protect the detector from direct hits, and a shield placed around the beam pipe from secondary particles, keeping the effect of SR on the detector to negligible levels. The most important source of background is expected to be the Incoherent Pair Creation (IPC). Its effect has been studied in full simulation and reconstruction, and it was shown that it will not pose a problem for the detector, even if conservative estimations for the time resolution of the detector sensors are assumed. Moreover, the gamma gamma -> hadrons, radiative Bhabhas and beam-gas interaction induced backgrounds were studied. All were found to have small to negligible effect on the detector. Overall, the FCC-ee interaction region backgrounds are not expected to compromise the detector performance.

AB - The FCC-ee machine induced backgrounds on the two proposed detectors (CLD and IDEA) have been studied in detail. Synchrotron Radiation (SR) considerations dictate the Interaction Region (IR) optimization. An asymmetric IR design limits the final bend critical energy to 100 keV. Masks placed before the final focus quadrupole protect the detector from direct hits, and a shield placed around the beam pipe from secondary particles, keeping the effect of SR on the detector to negligible levels. The most important source of background is expected to be the Incoherent Pair Creation (IPC). Its effect has been studied in full simulation and reconstruction, and it was shown that it will not pose a problem for the detector, even if conservative estimations for the time resolution of the detector sensors are assumed. Moreover, the gamma gamma -> hadrons, radiative Bhabhas and beam-gas interaction induced backgrounds were studied. All were found to have small to negligible effect on the detector. Overall, the FCC-ee interaction region backgrounds are not expected to compromise the detector performance.

KW - FCC-ee

KW - machine detector interface

KW - backgrounds

U2 - 10.1142/S0217751X20410092

DO - 10.1142/S0217751X20410092

M3 - Conference article

VL - 35

JO - International Journal of Modern Physics A

JF - International Journal of Modern Physics A

SN - 0217-751X

IS - 15-16

M1 - 2041009

T2 - 5th Annual Meeting on High Energy Phisics

Y2 - 7 January 2019 through 25 January 2019

ER -

ID: 247160140