MLZ is a cooperation between:

Technische Universität München> Technische Universität MünchenHelmholtz-Zentrum Hereon> Helmholtz-Zentrum Hereon
Forschungszentrum Jülich> Forschungszentrum Jülich

MLZ is a member of:

LENS> LENSERF-AISBL> ERF-AISBL

MLZ on social media:

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MLZ (eng)

Lichtenbergstr.1
85748 Garching

Magnetic Field

The MLZ offers magnetic fields up to 12 Tesla. The different magnets may be used with additional sample environments, such as various inserts for low and high temperatures or even pressure cells. The table below gives all important information. If you have further questions, don’t hesitate to contact the sample environment group, responsible scientist or your local contact.

Specifications

MAG-2.2T-HTS

MAG-H-5.0T

MAG-V-7.5T

MAG-V-12T

Maximum magnetic field (T)

± 2.5 (orientation arbitrary)

± 5.0 (symm.),
± 2.5 (asymm.)

± 5.5 (symm.)

±12 (symm.)
±11 (asymm.)

Homogenity of the magnetic field (%)

1.45 (15 mm DSV)

2.0 (25 mm x 25 mm cylinder)

0.2 (Ø 15 mm sphere)

< 0.5% (symm.)
< 1.2% (asymm.)

Bores

3 RT bores: Ø 80 mm

3 RT bores: Ø 80 mm

RT bore: Ø 100 mm

LT bore (VTI): Ø 34mm

Beam window dimensions

vertical gap (mm)

30

35

vertical angle of aperture

± 20°

30°

± 4°

scattering angle horizontal

150°

30°

320°

330°

Strayfield

1 mT at 1 m

10 mT at1 m

< 0.5 mT bei 1,2 m

Cooling system

dry

dry

dry

LH and LN

Cool down

22 h

10 d

3 d

3 d

Additional sample environment available

CC, CCR

CCR

CC, CCR, HTF

OxInst HelioxVT He3 und KelvinoxJT DU

Additional information

Total thickness of Al in the beam: 30 mm

Total thickness of Al in the beam: 25 mm

Heat exchanger – 1.5 to 300 K

JEM 1-3 (electromagnet)

JVM1-5.0T (active shielded)

Mag-V-8T

HTS 3T

Maximum magnetic field (T)

1.4
(symm.)

5.0 (asymm.)

8T (asymm.)

3T

Homogenity of the magnetic field (%)

1.8
(15 mm x 30 mm Zylinder)

<0,45 over 10 mm in height

<1.5 (15 mm), < 4.2 (25 mm)

Bores

-

1.8
(15 mm x 30 mm cylinder)

34 mm

RT 80 mm vertical, 2× 60 mm horizontal

Beam window dimensions

vertical gap (mm)

40

50

53

60

vertical open angle

± 20°

± 5°

32°

scattering angle horizontal

180°

330°

300°

32°

Strayfield

0 G

< 0.1 mT at 1 m

< 5 mT at 1 m

< 1 Gauss at 1 m

Cooling system

-

LHE

LHe

CCR

Cool down

-

4 h

3 h

1 d

Additional sample environment available

CCR (Temperatures: 3 – 320K)

JKC 1,2;
VTI: 1.8–300 K

Kelvinox JT Dilution Insert (30 mK)

ccts 5 4 K-400 K

Additional information

used for small angle scattering and reflectometry

slim design to be used with all instruments

10 mm Al in beam

RT bore

Contact

Daniel Vujevic
Phone: +49 (0)89 158860-774
E-mail: d.vujevic@fz-juelich.de

Dr. Alexander Weber
Phone: +49 (0)89 158860-726
E-mail: al.weber@fz-juelich.de

Dr. Manuel Suarez Anzorena
Phone: +49 (0)89 289-10769
E-mail: Manuel.suarez@frm2.tum.de

Gallery: Magnets available at MLZ

MAG-2.2T-HTS
MAG-2.2T-HTS
MAG-H-5.0T
MAG-H-5.0T
MAG-V-7.5T
MAG-V-7.5T
JEM-2 with pulsed tube cooler (JPC-1)
JEM-2 with pulsed tube cooler (JPC-1)
JEM-2 with pulsed tube cooler (JPC-1) with sample mount
JEM-2 with pulsed tube cooler (JPC-1) with sample mount
JVM1-5.0T
JVM1-5.0T

MLZ is a cooperation between:

Technische Universität München> Technische Universität MünchenHelmholtz-Zentrum Hereon> Helmholtz-Zentrum Hereon
Forschungszentrum Jülich> Forschungszentrum Jülich

MLZ is a member of:

LENS> LENSERF-AISBL> ERF-AISBL

MLZ on social media: