Magnet specifications

  • Cell 1: 30 tesla Bitter Magnet (Ø50mm room temperature bore)
  • Cell 2: 37.5 tesla Bitter Magnet (Ø32mm room temperature bore)
  • Cell 3: 33 tesla Bitter Magnet (Ø32mm room temperature bore)
  • Cell 4: 38 tesla Bitter Magnet (Ø32mm room temperature bore)
  • Cell 5: 33 tesla Bitter Magnet (Ø32mm room temperature bore)
  • Cell 6: preparation for 45 tesla hybrid magnet
  • S/C 1: 16 tesla Superconducting Magnet
    (Ø32 mm liquid Helium temperature bore)
  • S/C 2: 16 tesla Superconducting Magnet
    (Ø40 mm liquid Helium temperature bore)
  • E 1: 2 tesla Solid Pole Electro Magnet
    (38 mm Gap)


Cell 1

Type: Bitter cell1
Max Field: 30 tesla
Bore: Ø 50 mm at room temp.
Power: 17 MW
Homogeneity 1x10-3 in 1 cm DSV
Location: North Hall
Current Field Center location and Calibration table
For old calibration data contact Gideon Laureijs.

Dimension drawings of typical bath cryostat setup (pdf, 47 kB)

Take a look at a snap shot of cell 1 in our virtual lab (wait a moment for the program to load and start at the right spot).



Cell 2

Type: Bitter
Max Field: 37.5 tesla
Bore: Ø 32 mm at room temp.
Power: 20.7 MW
Homogeneity 1x10-3 in 1 cm DSV
Location: South Hall
Field Center location and Calibration table.
For old calibration data contact Gideon Laureijs.
Dimension drawing of typical bath cryostat setup. (pdf, 48 kB)

Take a look at a snap shot of cell 2 in our virtual lab (wait a moment for the program to load and start at the right spot).



Cell 3

Type: Bitter cell3
Max Field: 33 tesla
Bore: Ø 32 mm at room temp.
Power: 17 MW
Homogeneity 1x10-3 in 1 cm DSV
Location: North Hall
Field Center location and Calibration table
For old calibration data contact Gideon Laureijs.
Dimension drawing of typical bath cryostat setup (pdf, 105 kB)

Take a look at a snap shot of cell 3 in our virtual lab (wait a moment for the program to load and start at the right spot).



Cell 4

Type: Bitter
Max Field: 37.9 tesla
Bore: Ø 32 mm at room temp.
Power: tbd MW
Homogeneity: 1x10-3 in 1 cm DSV
Location: South Hall
Field Center location and Calibration table
For old calibration data contact Gideon Laureijs
Dimension drawing of typical bath cryostat setup. (pdf, 48 kB)

Take a look at a snap shot of cell 4 in our virtual lab (wait a moment for the program to load and start at the right spot).



Cell 5

Type: Bitter cell5
Max Field: 33.0 tesla
Bore: Ø 32 mm at room temp.
Power: 17 MW
Homogeneity 1x10-3 in 1 cm DSV
Location: North Hall
Field Center location and Calibration table.
For old calibration data contact  Gideon Laureijs.
Dimension drawing of typical bath cryostat setup. (pdf, 105 kB)

Take a look at a snap shot of cell 5 in our virtual lab (wait a moment for the program to load and start at the right spot).



Cell 6

Type: 45 tesla hybrid magnet, under construction GiLa_20190827_3596
Max Field:
Bore: Ø 32 mm at room temp.
Power:
Homogeneity
Location: South Hall

S/C 1

Type: Super Conducting (Oxford Instruments®) sc2
Max Field: 16 tesla
Bore: Ø 32mm at liquid helium temp.
Ø 21.6mm in anticryostat. (1.5K - 50K)
Homogeneity < 10-4 in 1 cm DSV
Location: First Floor, Labtuin North
Field Center: 1420mm from standard top flange
Main dimension drawing. (pdf, 34 kB)

Take a look at a snap shot of  S/C 1 in our virtual lab (wait a moment for the program to load and start at the right spot).


S/C 2

Type: Super Conducting (Oxford Instruments®) sc3
Max Field: 16 tesla
Bore: Ø 40mm at liquid helium temp.
Ø 33mm in anticryostat. (1.5K - 50K)
Ø 24mm in VTI (1.5K - Room temp.)
Homogeneity < 10-4 in 1 cm DSV
Location: Ground floor, 00.18
Field Center: 1420mm from standard top flange
Main dimension drawing. (pdf, 34 kB)


E1

Type: Solid Pole Electro Magnet (Varian®) e1
Max Field: 2 tesla
Gap: 38 mm
Location: Ground floor, 00.18