Cell 5: 25.2 Tesla Split Magnet
Split coil magnet.
The split magnet offers users direct optical access to its central bore. While its revolutionary design represents a new frontier in optics-related research, the split magnet can easily be configured for a range of non-optics experiments as well.
Most of the experiments done on this instrument can also be performed in the SCM3, the 17.5 tesla magnet for ultrafast optics/ UV/ VIS/ NIR spectroscopy. Please visit that page for more information.
Mid-plane data of the 25.2 T Split Magnet
|
|
Coil
|
A1
|
A2
|
B
|
C
|
D
|
| Current (kA) |
13
|
27
|
40
|
40
|
40
|
| Water Flow (l/s) |
28
|
60
|
35
|
50
|
50
|
| Magnetic Clamping (t)
|
3
|
15
|
66
|
114
|
386
|
|
Vacuum Space
|
52%
|
51%
|
51%
|
50%
|
50%
|
|
Vacuum Jacket Space |
14%
|
10%
|
9%
|
12%
|
10%
|
|
Cooling Water Space |
27%
|
23%
|
23%
|
10%
|
5%
|
|
Conductor Space |
6%
|
16%
|
17%
|
27%
|
35%
|
|
Dynamic Light Scattering
In dynamic light scattering (pictured below), one measures the time correlation of the intensity of quasi-elastically scattered light.
Related Links
For more information, contact Interim DC Program Director Tim Murphy or Steve McGill, coordinator for ultrafast and continuous-wave (cw) visible optics.
