LHC Optics Measurement with Proton Tracks Detected by the Roman Pots of the TOTEM Experiment

Georgy Antchev,P. Aspell,I. Atanassov,V. Avati,Joachim Baechler,V. Berardi,M. Berretti,Edoardo Bossini,Ubaldo Bottigli,M. Bozzo,Erik Jens Brucken,A. Buzzo,F.S. Cafagna,M.G. Catanesi,C. E. Covault,Mate Csanad,Tamas Ferenc Csorgo,Mario Deile,M. Doubek,K. Eggert,V. K. Eremin,F. Ferro,A. Fiergolski,Francisco Garcia,Vjaceslav Georgiev,Simone Giani,Leszek Grzanka,J. Hammerbauer,J. Heino,Timo Eero Hilden,A. Karev,Jan Kaspar,J. Kopal,Vojtĕch Kundrát,S Lami,G. Latino,R. Lauhakangas,T. Leszko,E. Lippmaa,J. Lippmaa,Miloš Lokajíček,L. Losurdo,M. Lo Vetere,F. Lucas Rodríguez,M. M. Macri,Tuula Maki,A Mercadante,N. Minafra,S. Minutoli,Frigyes Nemes,H. Niewiadomski,E. Oliveri,F. Oljemark,R. Orava,M. Oriunno,K. Osterberg,P. Palazzi,Zdeněk Peroutka,Jiri Prochazka,M. Quinto,E. Radermacher,E. Radicioni,Federico Ravotti,E Robutti,Leszek Ropelewski,G. Ruggiero,H Saarikko,A. Scribano,J. Smajek,Walter Snoeys,J. Sziklai,C. Taylor,N. Turini,Vaclav Vacek,J. Welti,Jj Whitmore,P. Wyszkowski,K. Zielinski

LHC Optics Measurement with Proton Tracks Detected by the Roman Pots of the TOTEM Experiment

2014

Georgy Antchev
P. Aspell
I. Atanassov
V. Avati
Joachim Baechler
V. Berardi
M. Berretti
Edoardo Bossini
Ubaldo Bottigli
M. Bozzo
Erik Jens Brucken
A. Buzzo
F.S. Cafagna
M.G. Catanesi
C. E. Covault
Mate Csanad
Tamas Ferenc Csorgo
Mario Deile
M. Doubek
K. Eggert
V. K. Eremin
F. Ferro
A. Fiergolski
Francisco Garcia
Vjaceslav Georgiev
Simone Giani
Leszek Grzanka
J. Hammerbauer
J. Heino
Timo Eero Hilden
A. Karev
Jan Kaspar
J. Kopal
Vojtĕch Kundrát
S Lami
G. Latino
R. Lauhakangas
T. Leszko
E. Lippmaa
J. Lippmaa
Miloš Lokajíček
L. Losurdo
M. Lo Vetere
F. Lucas Rodríguez
M. M. Macri
Tuula Maki
A Mercadante
N. Minafra
S. Minutoli
Frigyes Nemes
H. Niewiadomski
E. Oliveri
F. Oljemark
R. Orava
M. Oriunno
K. Osterberg
P. Palazzi
Zdeněk Peroutka
Jiri Prochazka
M. Quinto
E. Radermacher
E. Radicioni
Federico Ravotti
E Robutti
Leszek Ropelewski
G. Ruggiero
H Saarikko
A. Scribano
J. Smajek
Walter Snoeys
J. Sziklai
C. Taylor
N. Turini
Vaclav Vacek
J. Welti
Jj Whitmore
P. Wyszkowski
K. Zielinski

Precise knowledge of the beam optics at the LHC is crucial to fulfill the physics goals of the TOTEM experiment, where the kinematics of the scattered protons is reconstructed with near-beam telescopes—so-called Roman pots (RP). Before being detected, the protons’ trajectories are influenced by the magnetic fields of the accelerator lattice. Thus precise understanding of the proton transport is of key importance for the experiment. A novel method of optics evaluation is proposed which exploits kinematical distributions of elastically scattered protons observed in the RPs. Theoretical predictions, as well as Monte Carlo studies, show that the residual uncertainty of the optics estimation method is smaller than .

Keywords:

Large Hadron Collider
Magnetic field
Kinematics
Particle physics
Residual
Proton
Elastic scattering
Monte Carlo method
Physics
Roman pot
Optics
Nuclear physics
Lattice (order)
proton transport

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