@article{Tumasyan:2023:09/P09009,
author = {Tumasyan, A and Adam, W and Andrejkovic, JW and Bergauer, T and Damanakis, K and Lechner, L and Paulitsch, P and Schwarz, D and Dragicevic, M and Erö, J and Del, Valle AE and Flechl, M and Frühwirth, R and Jeitler, M and Krammer, N and Krätschmer, I and Liko, D and Madlener, T and Mikulec, I and Rad, N and Schieck, J and Schöfbeck, R and Spanring, M and Templ, S and Waltenberger, W and Wulz, CE and Zarucki, M and Drugakov, V and Mossolov, V and Gonzalez, JS and Darwish, MR and De, Wolf EA and Di, Croce D and Janssen, X and Kello, T and Lelek, A and Pieters, M and Sfar, HR and Van, Haevermaet H and Van, Mechelen P and Van, Putte S and Van, Remortel N and Blekman, F and Bols, ES and Chhibra, SS and D'Hondt, J and De, Clercq J and Lontkovskyi, D and Lowette, S and Marchesini, I and Moortgat, S and Python, Q and Tavernier, S and VanDoninck, W and Van, Mulders P and Beghin, D and Bilin, B and Clerbaux, B and De, Lentdecker G and Delannoy, H and Dorney, B and Favart, L and Grebenyuk, A and K},
doi = {09/P09009},
journal = {Journal of Instrumentation},
title = {Proton reconstruction with the CMS-TOTEM Precision Proton Spectrometer},
url = {http://dx.doi.org/10.1088/1748-0221/18/09/P09009},
volume = {18},
year = {2023}
}

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TY  - JOUR
AB  - The Precision Proton Spectrometer (PPS) of the CMS and TOTEM experiments collected 107.7 fb-1 in proton-proton (pp) collisions at theLHCat 13 TeV(Run 2). This paper describes the key features of the PPS alignment and optics calibrations, the proton reconstruction procedure, as well as the detector efficiency and the performance of the PPS simulation. The reconstruction and simulation are validated using a sample of (semi)exclusive dilepton events. The performance of PPS has proven the feasibility of continuously operating a near-beam proton spectrometer at a high luminosity hadron collider.
AU  - Tumasyan,A
AU  - Adam,W
AU  - Andrejkovic,JW
AU  - Bergauer,T
AU  - Damanakis,K
AU  - Lechner,L
AU  - Paulitsch,P
AU  - Schwarz,D
AU  - Dragicevic,M
AU  - Erö,J
AU  - Del,Valle AE
AU  - Flechl,M
AU  - Frühwirth,R
AU  - Jeitler,M
AU  - Krammer,N
AU  - Krätschmer,I
AU  - Liko,D
AU  - Madlener,T
AU  - Mikulec,I
AU  - Rad,N
AU  - Schieck,J
AU  - Schöfbeck,R
AU  - Spanring,M
AU  - Templ,S
AU  - Waltenberger,W
AU  - Wulz,CE
AU  - Zarucki,M
AU  - Drugakov,V
AU  - Mossolov,V
AU  - Gonzalez,JS
AU  - Darwish,MR
AU  - De,Wolf EA
AU  - Di,Croce D
AU  - Janssen,X
AU  - Kello,T
AU  - Lelek,A
AU  - Pieters,M
AU  - Sfar,HR
AU  - Van,Haevermaet H
AU  - Van,Mechelen P
AU  - Van,Putte S
AU  - Van,Remortel N
AU  - Blekman,F
AU  - Bols,ES
AU  - Chhibra,SS
AU  - D'Hondt,J
AU  - De,Clercq J
AU  - Lontkovskyi,D
AU  - Lowette,S
AU  - Marchesini,I
AU  - Moortgat,S
AU  - Python,Q
AU  - Tavernier,S
AU  - VanDoninck,W
AU  - Van,Mulders P
AU  - Beghin,D
AU  - Bilin,B
AU  - Clerbaux,B
AU  - De,Lentdecker G
AU  - Delannoy,H
AU  - Dorney,B
AU  - Favart,L
AU  - Grebenyuk,A
AU  - Kalsi,AK
AU  - Moureaux,L
AU  - Popov,A
AU  - Postiau,N
AU  - Starling,E
AU  - Thomas,L
AU  - Velde,CV
AU  - Vanlaer,P
AU  - Vannerom,D
AU  - Cornelis,T
AU  - Dobur,D
AU  - Khvastunov,I
AU  - Niedziela,M
AU  - Roskas,C
AU  - Skovpen,K
AU  - Tytgat,M
AU  - Verbeke,W
AU  - Vermassen,B
AU  - Vit,M
AU  - Bruno,G
AU  - Caputo,C
AU  - David,P
AU  - Delaere,C
AU  - Delcourt,M
AU  - Giammanco,A
AU  - Lemaitre,V
AU  - Prisciandaro,J
AU  - Saggio,A
AU  - Vischia,P
AU  - Zobec,J
AU  - Alves,GA
AU  - Silva,GC
AU  - Hensel,C
AU  - Moraes,A
AU  - Das,Chagas EBB
AU  - Carvalho,W
AU  - Chinellato,J
DO  - 09/P09009
PY  - 2023///
TI  - Proton reconstruction with the CMS-TOTEM Precision Proton Spectrometer
T2  - Journal of Instrumentation
UR  - http://dx.doi.org/10.1088/1748-0221/18/09/P09009
VL  - 18
ER  - 

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