Add to ORKGThis article examines the modal frequencies and thermal deformations with different cooling schemes in unloaded condition of the latest girder and super accelerator structure (SAS) design of the CLIC module. Non-mass bearing parts and parts which didn’t significantly affect the rigidity of the model were removed in order to simplify the calculations. Thermal deformation analysis included only SA-structure made of oxygen-free copper (OFC). The results show that the girder together with the SAS form a top-heavy structure and natural frequencies will manifest in 20-55 Hz range. Furthermore, Thermal deformation analysis of different water cooling schemes show that dividing the single cooling loop into two or four separate loops increases the ef...
Temperature changes in the CLIC accelerating structure lead to unwanted deformation. One of the aims...
The mechanical vibration induced by the flow of cooling water is discussed. The possibility of combi...
Turbulent cooling water in the Compact Linear Collider (CLIC) accelerating structures will inevitabl...
Temperature changes lead to unwanted thermo-mechanical deformations in the components of the Compact...
under study, imposes micrometer mechanical stability of the 2-m long two-beam modules, the shortest ...
The final luminosity target of the Compact LInear Collider (CLIC) imposes a micron-level stability r...
The luminosity goal of CLIC requires micron level precision with respect to the alignment of the com...
To fulfil the mechanical requirements set by the luminosity goals of the CLIC collider, currently un...
To fulfil the mechanical requirements set by the luminosity goals of the CLIC collider, currently un...
The present report describes the finite element modelling of the CLIC two-beam modules. Based on the...
To reach the Compact Linear Collider (CLIC) design luminosity, the mechanical jitter of the CLIC mai...
To reach the Compact Linear Collider (CLIC) design luminosity, the mechanical jitter of the CLIC mai...
The assembly procedure of the CLIC accelerating structures is constituted of several steps, involvin...
CLIC is a linear electron-positron collider, 48 km long, consisting of more than 20000 repetitive mo...
Micron level stability of the Compact Linear Collider (CLIC) components is one of the main requireme...
Temperature changes in the CLIC accelerating structure lead to unwanted deformation. One of the aims...
The mechanical vibration induced by the flow of cooling water is discussed. The possibility of combi...
Turbulent cooling water in the Compact Linear Collider (CLIC) accelerating structures will inevitabl...
Temperature changes lead to unwanted thermo-mechanical deformations in the components of the Compact...
under study, imposes micrometer mechanical stability of the 2-m long two-beam modules, the shortest ...
The final luminosity target of the Compact LInear Collider (CLIC) imposes a micron-level stability r...
The luminosity goal of CLIC requires micron level precision with respect to the alignment of the com...
To fulfil the mechanical requirements set by the luminosity goals of the CLIC collider, currently un...
To fulfil the mechanical requirements set by the luminosity goals of the CLIC collider, currently un...
The present report describes the finite element modelling of the CLIC two-beam modules. Based on the...
To reach the Compact Linear Collider (CLIC) design luminosity, the mechanical jitter of the CLIC mai...
To reach the Compact Linear Collider (CLIC) design luminosity, the mechanical jitter of the CLIC mai...
The assembly procedure of the CLIC accelerating structures is constituted of several steps, involvin...
CLIC is a linear electron-positron collider, 48 km long, consisting of more than 20000 repetitive mo...
Micron level stability of the Compact Linear Collider (CLIC) components is one of the main requireme...
Temperature changes in the CLIC accelerating structure lead to unwanted deformation. One of the aims...
The mechanical vibration induced by the flow of cooling water is discussed. The possibility of combi...
Turbulent cooling water in the Compact Linear Collider (CLIC) accelerating structures will inevitabl...