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R&D of Nb$_{3}$Sn accelerator magnets at Fermilab / Zlobin, A V ; Ambrosio, G ; Andreev, N ; Barzi, E ; Bordini, B ; Bossert, R ; Carcagno, R ; Chichili, D R ; Di Marco, J ; Elementi, L et al.
Fermilab is developing and investigating different high-field magnets (HFM) for present and future accelerators. The HFM R&D; program focused on the 10-12 T magnets based on Nb/sub 3/Sn superconductor and explored both basic magnet technologies for brittle superconductors-wind-and-react and react-and-wind. [...]
2005 - Published in : IEEE Trans. Appl. Supercond. 15 (2005) 1113-18

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(91)

Design and mechanical analysis of a single-layer common coil dipole for VLHC / Novitski, I ; Andreev, N ; Ambrosio, G ; Bauer, P ; Kashikhin, V V ; Ziobin, A V
Fermilab is developing a 2-in-1, 11 T block-type common coil dipole magnet for a future Very Large Hadron Collider. The common coil design concept allows a large bending radius at the coil ends and therefore is well suited for use of the react-and-wind technique with brittle superconductors. [...]
2001 - Published in : IEEE Trans. Appl. Supercond. 11 (2001) 2276-9

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(80)

Heat treatment study of Nb$_{3}$Sn strands for the Fermilab's high field dipole model / Barzi, E ; Boffo, C ; Limon, P J ; Ozelis, J P ; Yamada, R ; Zlobin, A V ; Gregory, E ; Pyon, T ; Wake, M
Fermilab is developing high field superconducting dipole magnets based on Nb/sub 3/Sn for a post-LHC very large hadron collider (VLHC) . The first prototype is a 1 meter long two-layer shell-type (cos- theta) coil with a nominal field of 11 T. [...]
2000 - Published in : IEEE Trans. Appl. Supercond. 10 (2000) 1000-3

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(76)

Mechanical design and analysis of 2-in-1 shell-type $Nb_{3}$Sn dipole models for VLHC / Chichili, D R ; Kashikhin, V V ; Ziobin, A V
Fermilab has begun investigating Nb/sub 3/Sn twin aperture dipole magnet designs as a next step towards the realization of high field magnets for a Very Large Hadron Collider (VLHC). The magnet design is based on two-layer shell-type Nb/sub 3/Sn coils with 43.5 mm aperture. [...]
2001 - Published in : IEEE Trans. Appl. Supercond. 11 (2001) 2288-91
In : Applied Superconductivity Conference, Virginia Beach, VI, USA, 17 - 22 Sep 2000, pp.2288-91

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(72)

Fabrication of the shell-type $Nb_{3}$ Sn dipole magnet at Fermilab / Chichili, D R ; Ambrosio, G ; Andreev, N ; Barzi, E ; Caspi, S ; Kashikhin, V V ; Limon, P J ; Scanlan, R M ; Terechkine, Yu ; Tompkins, J et al.
A 43.5 mm aperture dipole magnet with a nominal field of 11 T is being fabricated at Fermilab. The design is based on a two-layer shell-type coil structure made of Rutherford-type Nb/sub 3/Sn cable with wind and react technology. [...]
2001 - Published in : IEEE Trans. Appl. Supercond. 11 (2001) 2160-3

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(71)

R&D for a single-layer Nb$_{3}$Sn common coil dipole using the react-and-wind fabrication technique / Ambrosio, G ; Andreev, N ; Barzi, E ; Bauer, P ; Chichili, D R ; Ewald, K D ; Fehér, S ; Imbasciati, L ; Kashikhin, V V ; Limon, P J et al.
A dipole magnet based on the common coil design, using prereacted Nb /sub 3/Sn superconductor, is under development at Fermilab, for a future Very Large Hadron Collider. This magnet has some innovative design and technological features such as single layer coils, a 22 mm wide 60-strand Rutherford type cable and stainless steel collars reinforced by horizontal bridges inserted between coil blocks. [...]
2002 - Published in : IEEE Trans. Appl. Supercond. 12 (2002) 39-42
In : 17th International Conference on Magnet Technology, CERN, Geneva, Switzerland, 24 - 28 Sep 2001, pp.39-42

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(69)

Development and test of single-bore $Cos \vartheta$ Nb$_3$Sn dipole models with cold iron yoke / Andreev, N (Fermilab) ; Ambrosio, G (Fermilab) ; Barzi, E (Fermilab) ; Carcagno, R (Fermilab) ; Chichili, D R (Fermilab) ; DiMarco, J (Fermilab) ; Feher, S (Fermilab) ; Imbasciati, L (Fermilab) ; Kashikhin, V V (Fermilab) ; Lamm, M (Fermilab) et al.
Two short Nb$_3$Sn dipole models based on a single-bore cos-theta coil with a cold iron yoke were fabricated and tested at Fermilab. This paper summarizes the details of magnet design and fabrication procedure, and reports the test results including quench performance and quench heater studies, and the magnetic measurements..
FERMILAB-CONF-01-380.- 2002 - 5 p. - Published in : IEEE Trans. Appl. Supercond. 12 (2002) 332-336 Fulltext: PDF;
In : 17th International Conference on Magnet Technology, CERN, Geneva, Switzerland, 24 - 28 Sep 2001, pp.332-336

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(64)

Status of $Nb_{3}$Sn accelerator magnet R&D / Sabbi, G L
Excellent mechanical and electrical properties of multifilamentary Nb Ti have made it the conductor of choice in superconducting accelerators starting from the Tevatron. However, the LHC operating field of 8.33 T is close to limit for NbTi technology. [...]
2002 - Published in : IEEE Trans. Appl. Supercond. 12 (2002) 236-41
In : 17th International Conference on Magnet Technology, CERN, Geneva, Switzerland, 24 - 28 Sep 2001, pp.236-41

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(64)

Development of the 11 T Nb$_{3}$Sn dipole model at Fermilab / Ambrosio, G ; Andreev, N ; Arkan, T T ; Barzi, E ; Caspi, S ; Chichili, D R ; Chow, K ; Kashikhin, V V ; Limon, P J ; Makarov, A A et al.
A one meter long Nb/sub 3/Sn dipole model with 11 T nominal magnetic field in a 43.5 mm bore is being developed at Fermilab in collaboration with LBNL and KEK as part of the R&D; efforts for a future Very Large Hadron Collider. This paper describes the magnet design and fabrication procedure as well as summarizes the results of magnetic, mechanical and quench protection analyses. [...]
2000 - Published in : IEEE Trans. Appl. Supercond. 10 (2000) 298-301

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Conductor development for a wide bore 10 T Nb$_{3}$Sn model dipole magnet / den Ouden, A ; Wessel, S ; ten Kate, H H J ; Kirby, G A ; Taylor, T M ; Siegel, N
An 87.8 mm bore single aperture 10 T Nb/sub 3/Sn model dipole magnet is under development as a next step in the realization of high-field Nb/sub 3/Sn dipole magnets. The magnet is a 2 layer cos( theta )- dipole model as an alternative for the proposed NbTi D1 beam separator magnets for the LHC. [...]
Geneva : CERN, 2000 - Published in : IEEE Trans. Appl. Supercond. 10 (2000) 302-5 IEEE Published version, local copy: PDF;

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