| Local Contact |
Hans Engelkamp |
| Field range |
0 ... 33 T |
| Spectral range |
Illumination
Different types of lamps: Halogen, Xenon, Deuterium
Different types of lasers (wavelength in nm):
HeNe: 632.8, 543.5
Ti:Sapphire: 700 – 1070
Solid State: 375, 405, 485, 488, 515, 532, 640, 685, 730.
Dye laser: 540-655
Detection
Sony dxc-990p ccd camera with YH18x6.7 KRS SX7 lens |
| Temperature range |
278 ... 363 K
Stabilized to 0.1 K |
| Sample size |
Optical cuvettes with thickness 0.01-0.5 cm (Voight configuration)
Microscopy cover slips up to 12.5 cm (Faraday configuration) |
| Sensitivity |
Depends on magnification and light source
Resolution down to 1 m |
| Typical experiment |
Transmission microscopy
Scattering microscopy
Imaging of levitation experiments |
| Sample Holder |
Modular design |
| Sample environment |
Solutions or dispersions |
| Examples |
R. Hemmersbach, A. Simon, K. Wasser, J. Hauslage, P.C.M. Christianen, P.W. Albers, M. Lebert, P. Richter, W. Alt and R. Anken, "Impact of a High Magnetic Field on the Orientation of Gravitactic Unicellular Organisms-a Critical Consideration About the Application of Magnetic Fields to Mimic Functional Weightlessness", Astrobiology 2014, 14, 205. |
| |
|
