M. Foitl scite author profile

M. Foitl

4Publications

23Citation Statements Received

11Citation Statements Given

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TU Wien

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Magnetization measurements on LHC superconducting strands

Naour

Oberli

Wolf

et al. 1999

IEEE Trans. Appl. Supercond.

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When using superconducting magnets in particle accelerators like the LHC, persistent currents in the superconductor often determine the field quality at injection, where the magnetic field is low. This paper describes magnetization measurements made on LHC cable strands at the Technical University of Vienna and the Institute of Physics of the Polish Academy of Sciences in collaboration with CERN. Measurements were performed at T=2K and T=4.2K on more than 50 strands of 7 different manufacturers with NbTi filament diameter between 5 and 7 micrometer. Two different measurement set-ups were used: vibrating sample magnetometer, with a sample length of about 8mm, and an integrating coil magnetometer, with sample length of about 1m. The two methods were compared by measuring the same sample. Low field evidence of proximity effect is discussed. Statistics like ratio of the width of the magnetization loop at 4.2K and 2K, and the initial slope dM/dB after cooldown are presented. Decrease of the magnetization with time, of the order of 2% per hour, was observed in some samples. Abstract When using superconducting magnets in particle accelerators like the LHC, persistent currents in the superconductor often determine the field quality at injection, where the magnetic field is low. This paper describes magnetization measurements made on LHC cable strands at the Technical University of Vienna and the Institute of Physics of the Polish Academy of Sciences in collaboration with CERN. Measurements were performed at T=2K and T=4.2K on more than 50 strands of 7 different manufacturers with NbTi filament diameter between 5 and 7 micrometer. Two different measurement set-ups were used: vibrating sample magnetometer, with a sample length of about 8mm, and an integrating coil magnetometer, with sample length of about 1m. The two methods were compared by measuring the same sample. Low field evidence of proximity effect is discussed. Statistics like ratio of the width of the magnetization loop at 4.2K and 2K, and the initial slope dM/dB after cooldown are presented. Decrease of the magnetization with time, of the order of 2% per hour, was observed in some samples.

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Influence of the annealing time of internal tin Nb3Sn strands on the critical current and the magnetization losses

Fillunger¹,

Foitl²,

Hense³

et al. 2002

Physica C: Superconductivity

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Influence of the heat treatment of internal tin Nb3Sn strands on the critical current and the magnetization losses

Fillunger¹,

Foitl

Hense

et al. 2001

Physica C: Superconductivity

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Optimized heat treatment of internal tin Nb/sub 3/Sn strands [for ITER]

Fillunger¹,

Foitl

Hense

et al. 2002

IEEE Trans. Appl. Supercond.

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The hysteresis and coupling losses, the magneto resistance of the strands designed by Europa Metalli to reach ITER HP I specifications have been deduced by magnetization-and magneto resistance measurements. Additionally, the critical current density and the -values have been examined.By varying the temperature and the duration of the final annealing step, a better understanding of the interplay of the annealing parameters with the intrinsic properties can be gained.From these results we will show, that for the use in ITER shorter annealing times at higher annealing temperatures lead to a dramatic decrease of hysteresis and coupling losses accompanied by a decrease of annealing costs.

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M. Foitl

Magnetization measurements on LHC superconducting strands

Influence of the annealing time of internal tin Nb3Sn strands on the critical current and the magnetization losses

Influence of the heat treatment of internal tin Nb3Sn strands on the critical current and the magnetization losses

Optimized heat treatment of internal tin Nb/sub 3/Sn strands [for ITER]

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