Paper |
Title |
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MOPAB110 |
Comparison of Transverse Emittance Measurements in the LHC |
377 |
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- M. Hostettler, R. Alemany-Fernández, F. Alessio, M. Ferro-Luzzi, K. Fuchsberger, G. Iadarola, R. Matev, S. Papadopoulou, Y. Papaphilippou, G. Papotti, G. Trad
CERN, Geneva, Switzerland
- F. Antoniou
The University of Liverpool, Liverpool, United Kingdom
- G.R. Coombs
University of Glasgow, Glasgow, United Kingdom
- T.B. Hadavizadeh
Oxford University, Physics Department, Oxford, Oxon, United Kingdom
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Transverse emittance measurement in a collider is of crucial importance for understanding beam dynamics observations and evaluating the machine performance. Devices measuring the beam emittance face the challenge of dealing with considerable systematic errors that can compromise the quality of the measurement. Having different instruments or techniques that provide beam size estimations in order to compare the outcome and give an unbiased value of the emittance is very important in a collider. The comparison of the different results is as well very useful to identify possible problems in a given equipment which could remain unnoticed if such device is the only source of emittance reconstruction. In the LHC several of these instruments and techniques are available; wire scanners, synchrotron light monitors, emittance reconstruction from transverse convolved beam sizes extracted from luminosity scans at the LHC collision points and from beam-gas imaging in the vertex detector of the LHCb experiment. Those systems are briefly presented in this paper together with the comparison of the emittances reconstructed by each of them during physics production over the 2016 LHC run.
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DOI • |
reference for this paper
※ https://doi.org/10.18429/JACoW-IPAC2017-MOPAB110
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MOPAB130 |
Cross-Calibration of the LHC Transverse Beam-Profile Monitors |
437 |
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- R. Alemany-Fernández, F. Alessio, A. Alexopoulos, C. Barschel, F.S. Carlier, J.M. Coello de Portugal, M. Ferro-Luzzi, A. Garcia-Tabares, M. Hostettler, O. Karacheban, E.H. Maclean, R. Matev, T. Persson, P.K. Skowroński, R. Tomás, G. Trad, S. Vlachos, B. Würkner
CERN, Geneva, Switzerland
- G.R. Coombs
EPFL, Lausanne, Switzerland
- T.B. Hadavizadeh
Oxford University, Physics Department, Oxford, Oxon, United Kingdom
- M. Hofer
TU Vienna, Wien, Austria
- L. van Riesen-Haupt
University of Oxford, Oxford, United Kingdom
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Calibration of a transverse beam profile monitor is of fundamental importance to guarantee the best possible accuracy and reliability of the instrument over time. In LHC the calibration standard for transverse-profile measurements are the wire scanners. Other profile monitors such as beam synchrotron light telescopes and interferometers are calibrated with respect to them. Additional information about single-bunch sizes can be obtained from beam-gas imaging in the LHCb vertex detector, from the transverse convolved beam sizes extracted from luminosity scans at the collision points, and from the evolution of the luminous-region parameters as reconstructed by ATLAS and CMS inner tracker detectors during such scans. For the first time in LHC, a dedicated cross-calibration of all the above-mentioned systems was carried out with beam in 2016. Additionally, dedicated optics measurements were also performed in order to determine with the highest possible accuracy the amplitude function at the interaction points and at the position of the profile monitors. Results of these measurements are presented in this paper.
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DOI • |
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※ https://doi.org/10.18429/JACoW-IPAC2017-MOPAB130
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MOPAB131 |
Transverse Emittance Measurements Using LHCb's Beam-Gas Interactions |
441 |
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- T.B. Hadavizadeh
Oxford University, Physics Department, Oxford, Oxon, United Kingdom
- R. Alemany-Fernández, F. Alessio, C. Barschel, G.R. Coombs, M. Ferro-Luzzi, R. Matev
CERN, Geneva, Switzerland
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Measurements of the transverse beam emittance are of great importance at particle accelerators such as the LHC in order to monitor, understand and improve the performance of the machine. A number of profile monitors at the LHC are capable of measuring the transverse emittance from a range of different processes including wire scanners and beam synchrotron light monitors, each having advantages and shortcomings. It is possible additionally to measure the beam profiles using interaction vertices reconstructed in LHCb's vertex locator (Velo). Interactions between colliding beam particles and between beam particles and residual gas nuclei are used to build up a picture of the beam profiles. To guarantee the reliability and quality of the different emittance measurements, a dedicated cross-calibration was performed during a machine development period in October 2016. The results obtained with the LHCb Velo during this cross-calibration are presented here.
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DOI • |
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※ https://doi.org/10.18429/JACoW-IPAC2017-MOPAB131
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TUPVA032 |
Beam-Gas Background Observations at LHC |
2129 |
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- S.M. Gibson
Royal Holloway, University of London, Surrey, United Kingdom
- R. Alemany-Fernández, F. Alessio, G. Bregliozzi, H. Burkhardt, G. Corti, A. Di Mauro, M. Guthoff, A. Manousos, K.N. Sjobak, C. Yin Vallgren
CERN, Geneva, Switzerland
- A. Alici
Bologna University, Bologna, Italy
- S. D'Auria
University of Glasgow, Glasgow, United Kingdom
- S.M. Gibson
JAI, Egham, Surrey, United Kingdom
- D. Lazic
BUphy, Boston, Massachusetts, USA
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Observations of beam-induced background at LHC during 2015 and 2016 are presented in this paper. The four LHC experiments use the non-colliding bunches present in the physics-filling pattern of the accelerator to trigger on beam-gas interactions. During luminosity production the LHC experiments record the beam-gas interactions using dedicated background monitors. These data are sent to the LHC control system and are used to monitor the background levels at the experiments during accelerator operation. This is a very important measurement, since poor beam-induced background conditions can seriously affect the performance of the detectors. A summary of the evolution of the background levels during 2015 and 2016 is given in these proceedings.
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DOI • |
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※ https://doi.org/10.18429/JACoW-IPAC2017-TUPVA032
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