002890713 001__ 2890713
002890713 003__ SzGeCERN
002890713 005__ 20240904155234.0
002890713 0247_ $$2DOI$$9IOP$$a10.1088/1748-0221/19/02/T02008
002890713 0248_ $$aoai:cds.cern.ch:2890713$$pcerncds:FULLTEXT$$pcerncds:CERN:FULLTEXT$$pcerncds:CERN
002890713 035__ $$9HAL$$ahal-04454757
002890713 035__ $$9https://inspirehep.net/api/oai2d$$aoai:inspirehep.net:2756852$$d2024-03-04T14:49:45Z$$h2024-03-05T08:48:22Z$$mmarcxml
002890713 035__ $$9Inspire$$a2756852
002890713 041__ $$aeng
002890713 100__ $$aCarra, F$$mfederico.carra@cern.ch$$uCERN
002890713 245__ $$9IOP$$aFirst considerations on the supporting structures of FCC-ee booster and collider in the arc regions
002890713 260__ $$c2024
002890713 300__ $$a7 p
002890713 500__ $$aICFA BEAM DYNAMICS NEWSLETTER #85
002890713 520__ $$9IOP$$aIn 2022, the FCC Feasibility Study management mandated aworking group to analyse the best configuration of the FCC-ee tunnelin the arc regions, in view of the construction of a mock-up of thearc half-cell. One of the main and most challenging goals of thestudy, named FCC-ee Arc Half-Cell Mock-up Project, was toperform a preliminary investigation on the principles of supportingthe Short-Straight Sections and dipoles of the half-cells, both forthe booster and for the collider machines. This is an importantinput needed for the choice of the best configuration of therelative placement of the booster with respect to the collider. Thestructural stiffness, mass and stability of the supportingstructures must be optimized to minimize the vibrationstransmitted/transferred to the magnetic system of the acceleratorsby elements such as pumps, water cooling system, beamthermomechanical stresses, powering elements, etc. To perform thestudy, tools such as CAD software, FEM and analytical techniqueswere employed. This paper summarizes the preliminary design conceptsand the results of the simulations performed.
002890713 540__ $$3publication$$aCC-BY-4.0$$bIOP$$fCERN-RP: IOP$$uhttp://creativecommons.org/licenses/by/4.0/
002890713 542__ $$3publication$$dCERN$$g2024
002890713 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
002890713 6531_ $$9author$$aOverall mechanics design (support structures and materials, vibration analysis etc)
002890713 6531_ $$9author$$aAccelerator Subsystems and Technologies
002890713 6531_ $$9author$$aManufacturing
002890713 690C_ $$aARTICLE
002890713 690C_ $$aCERN
002890713 693__ $$sCERN FCC
002890713 700__ $$aBaudin, L$$uCERN
002890713 700__ $$aBauche, J$$uCERN
002890713 700__ $$aArtoos, K$$uCERN
002890713 700__ $$aAtieh, S$$uCERN
002890713 700__ $$aBertarelli, A$$uCERN
002890713 700__ $$aBrunner, O$$uCERN
002890713 700__ $$aCapatina, O$$uCERN
002890713 700__ $$aChance, A$$uSaclay
002890713 700__ $$aChemli, S$$uCERN
002890713 700__ $$aCorso, J P$$uCERN
002890713 700__ $$aCoupard, J$$uCERN
002890713 700__ $$aDalena, B$$uCERN$$uSaclay$$vAtomic Energy and Alternative Energies Commission, Gif-sur-Yvette, France
002890713 700__ $$aDi Castro, M$$uCERN
002890713 700__ $$aEtheridge, J$$uCERN
002890713 700__ $$aGarion, C$$uCERN
002890713 700__ $$aGrillot, S$$uCERN
002890713 700__ $$aGuinchard, M$$uCERN
002890713 700__ $$aHanke, K$$uCERN
002890713 700__ $$aEriksson, C J$$uCERN
002890713 700__ $$aKersevan, R$$uCERN
002890713 700__ $$aLosito, R$$uCERN
002890713 700__ $$aMainaud Durand, H$$uCERN
002890713 700__ $$aNiewiem, W$$uCERN
002890713 700__ $$aOide, K$$uCERN
002890713 700__ $$aOsborne, J$$uCERN
002890713 700__ $$aRaubenheimer, T$$uSLAC
002890713 700__ $$aRorison, S$$uCERN
002890713 700__ $$aTetrault, C$$uCERN
002890713 700__ $$aTimmins, M$$uCERN
002890713 700__ $$aTock, J Ph$$uCERN
002890713 700__ $$aValchkova-Georgieva, F$$uUnlisted, CH
002890713 700__ $$aVon Freeden, L$$uCERN
002890713 700__ $$aZimmermann, F$$uCERN
002890713 773__ $$cT02008$$n02$$pJINST$$v19$$y2024
002890713 8564_ $$82515689$$s1038196$$uhttp://cds.cern.ch/record/2890713/files/document.pdf$$yFulltext
002890713 960__ $$a13
002890713 980__ $$aARTICLE