Search Results - "Henrichsen, K. N."

Measurement of superconducting busbars models for the LHC main dipole by Le Coroller, A., Deregel, J., Henrichsen, K.N., Hervieu, B., Juster, F.P., Perinet-Marquet, J.-L., Vlogaert, J.

“…The LHC main dipoles will be connected in series by superconducting busbars, consisting of a superconducting cable brazed onto a stabilizing copper profile. In…”
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Long term magnetic performance of the steel concrete dipoles in LEP by Billan, J., Gourber, J.P., Henrichsen, K.N.

“…The steel-concrete cores of the LEP bending magnets were built of regularly spaced steel laminations, the spaces being filled with cement mortar. The effects…”
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Cryogenic and magnetic tests of the twin aperture prototype dipole in the Saclay test facility by Deregel, J., Genevey, P., Jacquemin, J.P., Kircher, F., Le Bars, J., Le Coroller, A., Henrichsen, K.N., Lebrun, P., Vlogaert, J.

“…The authors describe the test facility and the cryogenic and magnetic measurements performed on the twin aperture prototype (TAP) dipole for the CERN Large…”
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Influence of mortar-induced stresses on the magnetic characteristics of the LEP dipole cores by Billan, J., Gourber, J.P., Henrichsen, K.N., Laeger, H., Resegotti, L.

“…The steel-concrete cores of the Large Electron Positron colliding-beam accelerator dipole magnets are built of regularly spaced soft-magnetic-steel…”
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Operational Experience with the Superconducting High-Luminosity Insertion in the CERN Intersecting Storage Rings (ISR) by Billan, J., Bryant, P. J., Guignard, G., Henrichsen, K. N., Laeger, H., Lebrun, Ph, Pichler, S., Resegotti, L., Risselada, T., Tortschanoff, T., Verdier, A., Walckiers, L., Wolf, R.

“…The eight superconducting quadrupoles and their cryogenic equipment for this insertion were installed in the ISR at the end of 1980. The insertion has been…”
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A Superconducting High-Luminosity Insertion in the Intersecting Storage Rings (ISR) by Billan, J., Henrichsen, K. N., Laeger, H., Lebrun, Ph, Perin, R., Pichler, S., Pugin, P., Resegotti, L., Rohmig, P., Tortschanoff, T., Verdier, A., Walckiers, L., Wolf, R.

“…A focusing insertion will be constructed at an intersection of the ISR, to achieve a reduction of the effective beam height by about a factor 6 in the…”
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Calibration of centre-of-mass energies at LEP1 for precise measurements of Z properties by Assmann et al, R.

“…The determination of the centre-of-mass energies from the LEP1 data for 1993, 1994 and 1995 is presented. Accurate knowledge of these energies is crucial in…”
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Extension of the CERN ISR Energy by Acceleration of Stacked Beams by Hansen, S., Henrichsen, K. N., de Jonge, M.

“…The proton beams in the CERN Intersecting Storage Rings (ISR) have been accelerated to achieve colliding beams at 31.4 GeV/c, equivalent to a momentum of above…”
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Protection and monitoring of the ISR superconducting low- β quadrupoles by Henrichsen, K., Tausch, L., Tortschanoff, T., Walckiers, L.

“…The eight superconducting magnets of the high-luminosity insertion, installed in the CERN Intersecting Storage Rings during autumn 1980, were designed…”
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The influence of train leakage currents on the LEP dipole field by Bravin, E, Brun, G, Dehning, B, Drees, A, Galbraith, P, Geitz, M, Henrichsen, K, Koratzinos, M, Mugnai, G, Tonutti, M

“…The determination of the mass and the width of the Z boson at CERN’s LEP accelerator, an e + e − storage ring with a circumference of approximately 27 km,…”
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The energy calibration of LEP in the 1993 scan by Assmann, R., Beuret, A., Blondel, A., Billan, J., Billen, R., Bobbink, G. J., Bordry, F., Burkhardt, H., Dehning, B., Drees, A., Gascon, J., Grosse-Wiesmann, P., Grote, H., Hawkes, C. M., Henrichsen, K., Hofmann, A., Jacobsen, R., Jonker, M., Koratzinos, M., Koutchouk, J. P., Miles, J., Myers, S., Peschardt, E., Placidi, M., Plane, D., Quast, G., Renton, P., Rolandi, L., Schmidt, R., Strom, D., Veenhof, R., Vadon, M., Wachsmuth, H., Wenninger, J., Wyatt, T.

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Determination of the particle momentum in LEP from precise magnet measurements by Billan, J., Gourber, J.P., Henrichsen, K.N.

“…The absolute beam energy of LEP (Large Electron-Positron Collider) is obtained by measuring the magnetic field in a reference dipole connected in series with…”
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