The High Luminosity LHC project is aimed at increasing the LHC luminosity by an order of magnitude. One of the key ingredients to achieve the luminosity goal is the beam intensity increase. In order to keep beam instabilities under control and to avoid excessive power losses a careful design of new vacuum chamber components and an improvement of the present LHC impedance model are required. Collimators are among the major impedance contributors. Measurements with beam have revealed that the betatron coherent tune shifts were higher by about a factor of 2 with respect to the theoretical predictions based on the current model. Up to now the resistive wall impedance has been considered as the dominating impedance contribution for collimators. By carefully simulating also their geometric impedance we have contributed to the update of the LHC impedance model, reaching also a better agreement between the measured and simulated betatron tune shifts. Copyright © 2014 CC-BY-3.0 and by the respective authors.
Geometric beam coupling impedance of LHC secondary collimators / Frasciello, Oscar; S., Tomassini; M., Zobov; A., Grudiev; N., Mounet; B., Salvant. - ELETTRONICO. - (2014), pp. 1677-1679. (Intervento presentato al convegno IPAC 2014 tenutosi a Dresden; Germany).
Geometric beam coupling impedance of LHC secondary collimators
FRASCIELLO, OSCAR;
2014
Abstract
The High Luminosity LHC project is aimed at increasing the LHC luminosity by an order of magnitude. One of the key ingredients to achieve the luminosity goal is the beam intensity increase. In order to keep beam instabilities under control and to avoid excessive power losses a careful design of new vacuum chamber components and an improvement of the present LHC impedance model are required. Collimators are among the major impedance contributors. Measurements with beam have revealed that the betatron coherent tune shifts were higher by about a factor of 2 with respect to the theoretical predictions based on the current model. Up to now the resistive wall impedance has been considered as the dominating impedance contribution for collimators. By carefully simulating also their geometric impedance we have contributed to the update of the LHC impedance model, reaching also a better agreement between the measured and simulated betatron tune shifts. Copyright © 2014 CC-BY-3.0 and by the respective authors.| File | Dimensione | Formato | |
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