The Large Hadron Collider vacuum system

Angerth, B.; Bertinelli, F.; Brunet, J.-C.; Calder, R.; Caspers, F.; Cruikshank, P.; Dalin, J.-M.; Gröbner, O.; Kos, N.; Mathewson, A. G.; Poncet, A.; Reymermier, C.; Ruggiero, F.; Sholz, T.; Sgobba, S.; Wallén, Erik

doi:10.1109/pac.1995.505433

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“…As the surface becomes well in excess of l.005 at low temperature. several other the total desorption rate and the cryopumping speed of the conventional 300 series stainless steels have permeabilities density (pressure) in the beam screen will be determined by to avoid a significant magnetic field distortion [7]. Since the At the Stal'!…”

Section: Vapour Pressurementioning

confidence: 99%

The Large Hadron Collider vacuum system

Angerth

Bertinelli

Brunet

et al.

Proceedings Particle Accelerator Conference

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Invited paper to the 1995 Particle Accelerator Conference nd I'€pO. /3vacuugnchamber in a dedicated beam e on the PP-2M electron storage ring at Novosibirsk will be of the behaviour of the LHC vacuum syiem using$8 eV critical energy synchrotron radiation in a 10 K ' Ll-IC vacuum system with its beam screen will be described in detail. In addition, the results of a simulation gggmuch larger than those from the oxide layer. These and o er effects and constraints on the design of the essure at 5 K in excess of 10* Torr and the photon induced as desorption yields from condensed gas can cryopumpy ig, ee pumpin may appear ut in practice introduces several liabilities-for example, o y a few monolayers 0% cryopumped H2 already has a vapour ed bthe cold surface. At first htthis fr beneficial b synchrotron radiation impinging on the walls of the beam screen desorbs gas which is immediately absorb the 0.2 Wm" of synchrotron radiation power at a temperature between 5 K and 20 K. However the CO the corresponding pressure is 3.6 10* Torr. The protons will circulate in a beam screen which will less than 2.8 10* Torr which corresponds to a gas density of 9.3 10' molecule cm", for other gases such as luaas etirne at 8.36 Tesla which need superconductincg magnets operatir;g)at 1.9 K. The beam-resi l g' 7 eV is dominated by nuclear scattering an , for a lifetime of 1 hours, requires a room temperature Hz pressure 43.8 eV. To achieve the required strong bending in the LHC it is necessary to erréploy dipqle fields u to ¥ thus emit a significant amount of synchrotron radiation (9.25 10'° photons s" m") with a critical energy of ln the CERN Large Hadron Collider (LHC) project the relativistic protons have an energy of 7 TeV and

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Section: Vapour Pressurementioning

confidence: 99%