Resistive Magnets

LNCMI Grenoble
magnet type
Max Field full power
(T)
Standard Field
(T)
Magnet Bore available to cryostat
(mm)
Homogenity
(in 1 cm³)
Power
(MW)
36 T / 34 mm 37 36 34 700 x 10⁻⁶ 24
31 T / 50 mm 31 30 50 860 x 10⁻⁶ 24
20 T / 170 mm
20 20 170 600 x 10⁻⁶ 24
13 T / 130 mm 13 12 130 30 x 10⁻⁶ 12
10 T / 376 mm 10 10 376 250 x 10⁻⁶ 12
6 T / 284 mm 6 6 284 450 x 10⁻⁶ 12

Hybrid Magnets

LNCMI Grenoble
magnet type
Max Field full power
(T)
Standard Field
(T)
Magnet Bore
(mm available to cryostat)
Homogenity
(in 1 cm³)
Power
(MW)
43 T / 34 mm
Under Construction
43 34 24

Superconducting Magnets

LNCMI Grenoble
magnet type
Max Field
(T)
Magnet Bore
(mm)
Equipment Temperature Experimental Set-up Local Contact
1 15.8 50 cold bore VTI : 1.8 K - 300 K EPR
A. Barra
2 9 80 cold bore VTI : 1.4 K - 300 K NMR
M.-H. Julien, H. Mayaffre
3 15.4 / 17.1 52 cold bore VTI : 1.4 K - 300 K NMR
M.-H. Julien, H. Mayaffre
4 15 / 17 52 cold bore VTI : 1.4 K - 300 K
DR : 30 mK - 1.0 K
NMR
M. Horvatic
5 7.8 (fix) 89 warm bore
60 variable T
VTI: 4 K 300 K NMR at fixed field
330 MHz for 1H
S. Krämer
6 12 / 14 52 cold bore VTI : 1.2 K - 300 K Specific heat
A. de Muer, I. Sheikin
7 14 / 16 50 warm bore
33 cold bore
1.5 K - 300 K Optical spectroscopy
C. Faugeras, M. Potemski
8 11 / 13 50 cold bore 4 K FIR spectroscopy
M. Orlita
9 11 30 cold bore VTI : 1.2 K - 300 K Transport, In situ rotation, FIR-Laser
B. Piot
10 16 / 18 50 cold bore VTI : 1.2 K - 300 K Transport, Magnetization
B. Piot, G. Seyfarth
11 10 60 warm bore VTI : 1.2 K - 300 K Applied superconductivity
P. Pugnat
LNCMI Toulouse
magnet type
Max Field
(T)
Magnet Bore
(mm)
Equipment Temperature Experimental Set-up Local Contact
1 16 37 cold bore DR : 8 mK - 1 K Optical Spectroscopy
Transport
RD -NMR
D. Maude