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This is version 74.
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Cryomagnets
Please read also the rules concerning superconducting magnet experiments
and the Introduction on cryogenic handling 
Our standard thread on all systems is M6 female.
| Name | Description | Field | Temp. | d
(without
dilution) | a
[mm] | b
[mm] | l
[mm] | g
[mm] | h
[mm] | 200 gauss
line[m] |
|---|
| MA15 | Oxford Instr. Cryomagnet | vert. 14.9 T | 1.6...300 K
>80 mK | 20 | 14...90 | 139 | 1294 (1454) | 49.5 | 1078(+2) | 1.89 |
| MA11 | Oxford Instr. SANS Cryomagnet | hor. 11 T | 1.8...300 K
>80 mK | 22 | 75...100 | 54 | 1302 (1462) | 62 | 1080(+2) | |
| MA09 | Oxford Instr. Cryomagnet | vert. 9 T | 1.8...300 K
>80 mK | 48 | 93...137 | 58 | 1247 | 55 | | 1.14 |
| MA7 | Oxford Instr. Cryomagnet | hor. 6.8 T | 1.8...300 K
>80 mK | 48 | 35...90 | 69 | 1357 (1517) | 49.5 | | 1.19 |
| MA6 | Oxford Instr. Cryomagnet | vert. 6 T | 1.8...300 K
>80 mK | 30 | 40...90 | 80 | 1309 (1469*) | 49.5 | 1078(+2) | 0.70 |
| MA02 | Oxford Instr. Cryomagnet | hor. 1.8 T | 1.8...150 K
>100 mK | 28 | 0...56 | 93 | 1245 (1405) | 55 | 968(+2) | |
| MA4 | Thor Cryomagnet | vert. 4 T | 4.2...100 K | 24.5 | 37...71 | 29 | 1286 | 24.5 | | |
where
d: sample space diameter (reduce by 2-4 mm for max. sample diameter)
a: distance from thread to beam center
b: allowed size below beam center
l: length from top flange to the center of the sample (when used with a rotation unit, add 160)
g: diameter of upper part of sample stick space
h: length of upper (larger) part of sample stick space (+2mm when warm)
*: MA6 with rotation, measured on TriCS (geometrical: 1464)
The allowed sample diameter in combination with a dilution can be found here
in combination with dilution sticks
as we have adapter pieces, it is recommended to make the sample
holder with a distance from thread to the sample center between 37 and 50 mm
for a short time 300 K is possible, but not recommended due
to very high liquid He consumption
Stray fields
The stray fields can be calculated from the 200 gauss line distance.
For *vertical* magnets, this is the vertical distance. At the same distance in horizontal direction, the stray field is 100 gauss (0.01 Tesla).
For **horizontal** magnets, this is the distance in field direction. At the same distance in vertical or perpendicular to the field direction, the stray field is 100 gauss (0.01 Tesla).
The stray field folows a r^-3 rule, what means that at half the distance you have a 8 times higher field.
SampleMountingInstructions
Magnetic Forces
Electromagnets
| Instruments | Description | Field |
|---|
| TASP | Guide field magnet | vert. 20 mT
hor. 2 mT |
| SANS-I, SANS-II, AMOR | Electromagnet | hor. < 1.5 T |
This particular version was published on 12-Feb-2016 15:50:58 UTC by MarkusZolliker.
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