137 research outputs found
Various methods of manufacturing superconducting accelerating cavities
We report on experience in superconducting cavity production methods gained in shaping, joining and thin film coating with various materials and techniques (Pb, Nb, NbSn, NbN, NbTiN) with emphasis on their potential to reduce mass production costs
Metallurgical analysis and RF losses in superconducting niobium thin film cavities
Copper cavities with a thin niobium film as used in the large electron positron collider LEP would be also attractive for future linear colliders, provided the decrease of the Q-value with the accelerating gradient can be reduced. We aim at extracting the important parameters that govern this decrease. The dependence on the RF frequency is studied by exciting 500 MHz and 1500 MHz cavities in different modes. In addition we combined RF measurements for two 1500 MHz cavities of different RF performance with microscopic tests (AFM, TEM) on samples cut out of the same cavities. Their micro-structural characterisation in plan-view allows to extract the grain size and the defect densities
Secondary Beam Monitors for the NuMI Facility at FNAL
The Neutrinos at the Main Injector (NuMI) facility is a conventional neutrino
beam which produces muon neutrinos by focusing a beam of mesons into a long
evacuated decay volume. We have built four arrays of ionization chambers to
monitor the position and intensity of the hadron and muon beams associated with
neutrino production at locations downstream of the decay volume. This article
describes the chambers' construction, calibration, and commissioning in the
beam.Comment: Accepted for publication in Nucl. Instr. Meth.
The Superconducting TESLA Cavities
The conceptional design of the proposed linear electron-positron collider
TESLA is based on 9-cell 1.3 GHz superconducting niobium cavities with an
accelerating gradient of Eacc >= 25 MV/m at a quality factor Q0 > 5E+9. The
design goal for the cavities of the TESLA Test Facility (TTF) linac was set to
the more moderate value of Eacc >= 15 MV/m. In a first series of 27
industrially produced TTF cavities the average gradient at Q0 = 5E+9 was
measured to be 20.1 +- 6.2 MV/m, excluding a few cavities suffering from
serious fabrication or material defects. In the second production of 24 TTF
cavities additional quality control measures were introduced, in particular an
eddy-current scan to eliminate niobium sheets with foreign material inclusions
and stringent prescriptions for carrying out the electron-beam welds. The
average gradient of these cavities at Q0 = 5E+9 amounts to 25.0 +- 3.2 MV/m
with the exception of one cavity suffering from a weld defect. Hence only a
moderate improvement in production and preparation techniques will be needed to
meet the ambitious TESLA goal with an adequate safety margin. In this paper we
present a detailed description of the design, fabrication and preparation of
the TESLA Test Facility cavities and their associated components and report on
cavity performance in test cryostats and with electron beam in the TTF linac.
The ongoing R&D towards higher gradients is briefly addressed.Comment: 45 pages (Latex), 39 figures (Encapsulated Postscript), 53 Author
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