RF Measurements of the New TOTEM Roman Pot
The TOTEM experiment has been designed to measure the total proton-proton cross section and to study the elastic and diffractive scattering at the LHC energy. The measurement requires detecting protons at distances as small as 1 mm from the beam center: TOTEM uses Roman Pots, movable beam pipe inser...
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| creator | Berrig, O Biancacci, N Caspers, F Danisi, A Eberhardt, J Kuczerowski, J Minafra, N Salvant, B Vollinger, C |
| description | The TOTEM experiment has been designed to measure the total proton-proton
cross section and to study the elastic and diffractive scattering at the LHC
energy. The measurement requires detecting protons at distances as small as 1
mm from the beam center: TOTEM uses Roman Pots, movable beam pipe insertions,
hosting silicon detectors. In the first period of LHC operation no relevant
problems were detected with Roman Pots retracted or inserted during special
runs. However, when operating the LHC with high intensity beams, impedance
induced heating has been observed during the Roman Pots insertion. In order to
be compatible with the higher LHC beam current foreseen after the LS1, a new
version of the Roman Pot has been proposed and optimized with respect to the
beam coupling impedance. In this work we present the bench impedance
measurements carried out on the new Roman Pot prototype. Single and double wire
measurements, as well as probe measurements, were performed in order to detect
possible harmful resonant modes. The laboratory setup has been as well
simulated with the help of CST Particle Studio in order to benchmark the
measurement results. Measurements and simulations are in close agreement
confirming the equipment compatibility with the LHC requirements for safe
operation. |
| doi_str_mv | 10.48550/arxiv.1612.02200 |
| format | Article |
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cross section and to study the elastic and diffractive scattering at the LHC
energy. The measurement requires detecting protons at distances as small as 1
mm from the beam center: TOTEM uses Roman Pots, movable beam pipe insertions,
hosting silicon detectors. In the first period of LHC operation no relevant
problems were detected with Roman Pots retracted or inserted during special
runs. However, when operating the LHC with high intensity beams, impedance
induced heating has been observed during the Roman Pots insertion. In order to
be compatible with the higher LHC beam current foreseen after the LS1, a new
version of the Roman Pot has been proposed and optimized with respect to the
beam coupling impedance. In this work we present the bench impedance
measurements carried out on the new Roman Pot prototype. Single and double wire
measurements, as well as probe measurements, were performed in order to detect
possible harmful resonant modes. The laboratory setup has been as well
simulated with the help of CST Particle Studio in order to benchmark the
measurement results. Measurements and simulations are in close agreement
confirming the equipment compatibility with the LHC requirements for safe
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cross section and to study the elastic and diffractive scattering at the LHC
energy. The measurement requires detecting protons at distances as small as 1
mm from the beam center: TOTEM uses Roman Pots, movable beam pipe insertions,
hosting silicon detectors. In the first period of LHC operation no relevant
problems were detected with Roman Pots retracted or inserted during special
runs. However, when operating the LHC with high intensity beams, impedance
induced heating has been observed during the Roman Pots insertion. In order to
be compatible with the higher LHC beam current foreseen after the LS1, a new
version of the Roman Pot has been proposed and optimized with respect to the
beam coupling impedance. In this work we present the bench impedance
measurements carried out on the new Roman Pot prototype. Single and double wire
measurements, as well as probe measurements, were performed in order to detect
possible harmful resonant modes. The laboratory setup has been as well
simulated with the help of CST Particle Studio in order to benchmark the
measurement results. Measurements and simulations are in close agreement
confirming the equipment compatibility with the LHC requirements for safe
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cross section and to study the elastic and diffractive scattering at the LHC
energy. The measurement requires detecting protons at distances as small as 1
mm from the beam center: TOTEM uses Roman Pots, movable beam pipe insertions,
hosting silicon detectors. In the first period of LHC operation no relevant
problems were detected with Roman Pots retracted or inserted during special
runs. However, when operating the LHC with high intensity beams, impedance
induced heating has been observed during the Roman Pots insertion. In order to
be compatible with the higher LHC beam current foreseen after the LS1, a new
version of the Roman Pot has been proposed and optimized with respect to the
beam coupling impedance. In this work we present the bench impedance
measurements carried out on the new Roman Pot prototype. Single and double wire
measurements, as well as probe measurements, were performed in order to detect
possible harmful resonant modes. The laboratory setup has been as well
simulated with the help of CST Particle Studio in order to benchmark the
measurement results. Measurements and simulations are in close agreement
confirming the equipment compatibility with the LHC requirements for safe
operation.</abstract><doi>10.48550/arxiv.1612.02200</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Physics - Accelerator Physics Physics - Instrumentation and Detectors |
| title | RF Measurements of the New TOTEM Roman Pot |
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