Magnets

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The Danfysik accelerator magnet program covers standard and custom-built resistive magnets, reaching from small correctors to very large spectrometer magnets of more than 100 metric tons. Opera 2D and 3D is used for magnetic field modeling, Autodesk Inventor for mechanical design and COSMOS for finite element calculations of mechanical structures. Vacuum impregnated hollow conductor magnet coils are made in-house.
Magnetic field documentation is performed using a rotating coil system and a x-y-z Hall probe mapping system.

Danfysik offers complete magnet systems including vacuum chambers, supporting stands and matching power supplies.

Danfysik accelerator magnet program covers

  • Dipole magnets
  • Quadrupole magnets
  • Multipole magnets
  • Spectrometer magnets
  • Kickers, Septums and Bumper magnets
  • Scanning magnets
  • Solid yoke and laminated yoke constructions

Also the following related services are available

  • Beam optical calculations
  • Vacuum calculation and design
  • On-site Installation

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ELETTRA Booster ring and transfer line magnets

Description

Danfysik has delivered the complete set of magnets, including dipole, quadrupole and sextupole magnets for the ELETTRA Storage Ring at Sicrotrone Trieste, Italy

ElettraMagneter 659x314

Dipole, quadrupole and sextupole magnets for the ELETTRA Storage Ring at Sincrotrone Trieste, Italy

Project start 2006. Project completion 2007.

Danfysik A/S has successfully completed the delivery of the dipole, quadropole and sextupole magnets to the new 2.5 GeV booster for the ELETTRA storage ringat Sincrotrone Trieste. The scope of delivery includes 2D and 3D magnetic field calculations, mechanical design as well as full mechanical, electro-mechanical ans magnetic verification of the amgnets.

The dipole prototype magnets was fully documented magnetically with comprehensive Hall probe measurements and integral measurements with a pick-up coil. The effective magnetic length of the magnet was determined by Hall probe measurements at entrance and at exit of the magnets.
The dipole series magnets were verified by measuring the field integral with the integrating coil. 

The magnetic length of the multipole prototype magnet was determined by mapping the field with a Hall probe, and the harmonic content was measured using a rotating harmonic coil. The multipole series magnets were verified by measuring the harmonic content with the rotating harmonic coil.

Where

 
Sincrotrone Trieste S.C.p.A.S.S. 14 km 163,5 in Area Science ParkI-34012 Basovizza – TriesteItaly
Michael Nesager Pedersen

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Michael Nesager Pedersen

+45 72202351

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