Full 3D MultiPhysics Model of High Field PolyHelices Magnets
Résumé
High field Resistive magnets for static field de-
veloped at the Laboratoire National des Champs Magn ́etiques
Intenses (LNCMI) are based on the so-called polyhelix technique.
Their design relies on non-linear 3D multi-physic models. As the
user demands for higher magnetic field or specific field profile
are growing we have to revisit our numerical models. They need
to include more physics and more precise geometry. In this
context we have rewritten our numerical model in the frame
of a collaboration with Institut de Recherche en Math ́ematique
Avanc ́ee (IRMA). New models have been implemented with the
finite element library Feel++. This paper gives a status of
these developments and the new features available. Results are
presented for a 14 polyhelices insert targeting 36 Tesla in a 34
mm bore.High field Resistive magnets for static field de-
veloped at the Laboratoire National des Champs Magn ́etiques
Intenses (LNCMI) are based on the so-called polyhelix technique.
Their design relies on non-linear 3D multi-physic models. As the
user demands for higher magnetic field or specific field profile
are growing we have to revisit our numerical models. They need
to include more physics and more precise geometry. In this
context we have rewritten our numerical model in the frame
of a collaboration with Institut de Recherche en Math ́ematique
Avanc ́ee (IRMA). New models have been implemented with the
finite element library Feel++. This paper gives a status of
these developments and the new features available. Results are
presented for a 14 polyhelices insert targeting 36 Tesla in a 34
mm bore.
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